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#5507 From: hexagram14@...
Date: Thu Nov 3, 2011 4:47 pm
Subject: Cassini Significant Events 10/26/11 - 11/01/11 		happy_rasta
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Cassini Significant Events 10/26/11 - 11/01/11

 

The most recent spacecraft telemetry was acquired on Nov .1 from the Deep Space Network tracking complex at Madrid, Spain. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

Wednesday, Oct. 26 (DOY 299)

 

An image of Saturn's rings with Titan, Dione, Pandora and Pan is today's Astronomy Picture of the Day. It is available at: http://apod.nasa.gov/apod/ap111026.html.  The original post is here: http://saturn.jpl.nasa.gov/photos/imagedetails/index.cfm?imageId=4384.

 

Thursday, Oct. 27 (DOY 300)

 

Today the Imaging Science Subsystem (ISS) narrow angle camera had an unplanned warm start during an idle period and recovered nominally. No images were lost, however, incident surprise anomaly (ISA) #50468 was issued.

 

Friday, Oct. 28 (DOY 301)

 

Today a member of the Cassini Outreach team led a teacher professional development workshop for 27 teachers from New York, New Jersey, New Hampshire, Connecticut, and Massachusetts at the National Science Teachers' Association regional conference in Hartford, CT. The workshop was entitled "Our Solar System Through the Eyes of Scientists", and included hands-on activities as well as videos, web content, and an introduction to a new NASA solar system thematic curriculum for students in grades 1-6. This curriculum is a follow-on to Cassini's "Reading, Writing & Rings" science and language arts curriculum.

 

Orbit Trim Maneuver (OTM) #297 was performed today. This was the apoapsis maneuver setting up for the Enceladus 16 encounter on Nov. 6. The Reaction Control Subsystem (RCS) burn began at 5:45AM PDT. Telemetry immediately after the maneuver showed a burn duration of 40.25 seconds, giving a delta-V of 0.046 m/s, and making an 80 km correction in the Enceladus 16 B-plane. All subsystems reported nominal performance after the maneuver. The next maneuver, OTM-298, is scheduled to execute on Wednesday, November 2, and is the final targeting maneuver for E-16. Following OTM298, OTM-299, the post E-16 clean-up maneuver, is scheduled to execute on Tuesday, Nov. 8, with a deterministic delta-V of 2.2 m/s.

 

Sunday, Oct. 30 (DOY 303)

 

This week while the spacecraft was near apoapsis, science observations were dominated by Titan observations, with a series of three 13.5 hour and one 4.75 hour observations by the Composite Infrared Spectrometer (CIRS) and Imaging Science Subsystem (ISS). The Cosmic Dust Analyzer (CDA) performed two 15 hour and one 13 hour interstellar dust observations.

 

Monday, Oct. 31 (DOY 304)

 

S72 Sequence Implementation Process (SIP) port 3 products were due today. The products will be merged and sent out to the flight team for review.

 

A kickoff meeting was held today for the S73 Sequence Implementation Process. Port 1 for the first set of input files from the teams occurs on Nov. 14.

 

Tuesday, Nov. 1 (DOY 305)

 

The Radio Science (RSS) Team completed Solar Corona Experiment #8; the experiment went well overall. The next RSS data collection occurs on DOY 325.

 

In support of S73 sequence development, the Attitude and Articulation Control Subsystem (AACS) Team completed its analysis of Titan flybys T-83 and T-84, now that these pointing designs are considered "frozen". This analysis was performed to assess whether or not there are any control authority issues for these upcoming relatively low altitude flybys on thrusters.

 

The Downlink Ground System (DGS) team delivered Acelog V2.0.1 via a Delivery Coordination Meeting (DCM) held Thursday, Oct. 27, and installed this latest patch release into operations today. The DGS team also installed Mission Control, Data Mgmt, & S/C Analysis (MDAS) V5.0.6 today, to provide an Automatic Alarm Notification (AAN) hysteresis fix.

 

 

 HR


Reply | Messages in this Topic (1)
#5508 From: hexagram14@...
Date: Fri Nov 4, 2011 12:07 am
Subject: Cassini Makes a New Pass at Enceladus 		happy_rasta
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NASA's Cassini Makes a New Pass at Enceladus
Jet Propulsion Laboratory
November 03, 2011
 
http://www.jpl.nasa.gov/news/news.cfm?release=2011-340


NASA's Cassini spacecraft will acquire the first detailed radar images
of Saturn's moon Enceladus during a flyby on Sunday, Nov. 6. These will
be the first high-resolution radar observations made of an icy moon
other than Titan. The results will provide new information about the
surface of Enceladus and enable researchers to compare its geological
features as seen by radar with those of Titan.

The spacecraft will fly past Enceladus at a distance of about 300 miles
(500 kilometers) at its closest point. During the encounter, Cassini's
synthetic aperture radar will sweep across a long, narrow swath of the
surface just north of the moon's south pole. Cassini will use other
radar techniques to map much more of the surface of Enceladus at lower
resolutions and determine some of the surface's physical properties as
the spacecraft approaches and then speeds away from the icy body.

During this flyby, the mission's visible-light cameras will take images
of Enceladus and its famous jets, and the composite infrared
spectrometer will make new measurements of hot spots from which the jets
emerge. Cassini's ultraviolet imaging spectrograph will also make
distant observations of Saturn's moon Dione and its environment.


For more information about the Cassini-Huygens mission visit:
http://www.nasa.gov/cassini and http://saturn.jpl.nasa.gov/
 

HR

Reply | Messages in this Topic (1)
#5509 From: hexagram14@...
Date: Sun Nov 6, 2011 11:07 pm
Subject: Duck! 		happy_rasta
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NASA Resumes Observation of Massive Asteroid,  which will Fly By Earth
Tuesday


A huge chunk of black rock bigger  than four city blocks is speeding toward
us at more than 30,000 miles an hour.  Scientists say the asteroid will
miss us, but it will be barely more than  200,000 miles away when it passes
Earth at 11:13 p.m. Tuesday, and in cosmic  terms that's whisker close.


NASA and astronomers at the Chabot Space  and Science Center in Oakland, CA
will be tracking the fast-moving object with  the center's 36-inch
telescope, as will scientists at other observatories around  the world.


The scientists have estimated the possible effect which a  clash with an
asteroid of this size could cause to the Earth and namely – a  7-magnitude
earthquake and a 20-meter tsunami, leaving a 6-kilometer  crater.



more:

http://tinyurl.com/Better-hide-under-the-bed


HR

Reply | Messages in this Topic (1)
#5510 From: hexagram14@...
Date: Mon Nov 7, 2011 11:48 pm
Subject: NASA Captures New Images of Large Asteroid Passing Earth 		happy_rasta
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NASA Captures New Images of Large  Asteroid Passing Earth


PASADENA -- NASA's Deep Space Network antenna  in Goldstone, Calif. has
captured new radar images of Asteroid 2005 YU55 passing  close to Earth.

The asteroid safely will fly past our planet slightly  closer than the
moon's orbit on Nov. 8. The last time a space rock this large  came as close to
Earth was in 1976, although astronomers did not know about the  flyby at the
time. The next known approach of an asteroid this size will be in  2028.

The image was taken on Nov. 7 at 11:45 a.m. PST, when the asteroid  was
approximately 860,000 miles (1.38 million kilometers) away from Earth.
Tracking of the aircraft carrier-sized asteroid began at Goldstone at 9:30 a.m.
PDT on Nov. 4 with the 230-foot-wide (70-meter) antenna and lasted about two
hours, with an additional four hours of tracking planned each day from Nov.
6 -  10.

Radar observations from the Arecibo Planetary Radar Facility in  Puerto
Rico will begin Nov. 8, the same day the asteroid will make its closest
approach to Earth at 3:28 p.m. PST.

The trajectory of asteroid 2005 YU55  is well understood. At the point of
closest approach, it will be no closer than  201,700 miles (324,600
kilometers) as measured from the center of Earth, or  about 0.85 times the
distance
from the moon to Earth. The gravitational  influence of the asteroid will
have no detectable effect on Earth, including  tides and tectonic plates.
Although the asteroid is in an orbit that regularly  brings it to the vicinity
of
Earth, Venus and Mars, the 2011 encounter with  Earth is the closest it has
come for at least the last 200 years.

NASA  detects, tracks and characterizes asteroids and comets passing close
to Earth  using both ground- and space-based telescopes. The Near-Earth
Object  Observations Program at the Jet Propulsion Laboratory (JPL) in Pasadena,
Calif.,  commonly called "Spaceguard," discovers these objects,
characterizes some of  them, and plots their orbits to determine if any could be
potentially hazardous  to our planet. JPL manages the Near-Earth Object Program
Office for NASA's  Science Mission Directorate in Washington.

The new radar images are  online at:


http://www.nasa.gov/mission_pages/asteroids/multimedia/yu55-20111107.html

For more information about asteroids and near-Earth objects, visit:


http://www.jpl.nasa.gov/asteroidwatch

More information about  asteroid radar research is available online at:


http://echo.jpl.nasa.gov/

For more information about NASA's  Deep Space Network, visit:


http://deepspace.jpl.nasa.gov/dsn



- end -




HR

Reply | Messages in this Topic (1)
#5511 From: hexagram14@...
Date: Thu Nov 10, 2011 11:32 pm
Subject: Cassini Significant Events 11/02/11 - 11/08/11 		happy_rasta
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Cassini Significant Events 11/02/11 - 11/08/11

 

The most recent spacecraft telemetry was acquired on November 8 from the Deep Space Network tracking complex at Canberra, Australia. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

Wednesday, Nov.2 (DOY 306)

 

An encounter strategy meeting was held today to cover the period between Nov. 6 and Dec. 13, Enceladus, Dione and Titan encounters E-16, D-3 and T-79, and maneuvers 299-301.

 

Navigation Team and Science Planning and Sequencing Team members reviewed current trajectories with and without Orbit Trim Maneuver 298 (OTM-298), the final targeting maneuver for E-16 scheduled to execute today, and determined that OTM-298 was not needed. Consequently, OTM-298 was canceled.

 

Thursday, Nov. 3 (DOY 307)

 

Science activities this week began with the final 15 hour Titan Exploration at Apoapsis (TEA) observation (in the set of TEAs begun last week) by the Composite Infrared Spectrometer (CIRS) and Imaging Science Subsystem (ISS). This was followed by a set of ISS astrometric observations of some of Saturn's small inner moons, and a CIRS 12 hour observation of Saturn to measure oxygen compounds (H2O, CO2) in the stratosphere. The Ultraviolet Imaging Spectrograph (UVIS), CIRS, and the Visual and Infrared Mapping Spectrometer (VIMS) completed an 11 hour observation of Saturn’s aurora, which was followed by the E-16 Enceladus flyby at 496 km altitude. The primary goal of this flyby was to perform the first close Synthetic Aperture Radar (SAR) measurements of an icy satellite to understand the structure and composition of the regolith directly below the surface, and to compare these data with similar measurements of Titan. In addition to the Radar observations, remote sensing measurements were made of Enceladus' plume on the inbound leg to aid in understanding the structure and morphology, temporal variability, and relationship to geological features and hot spots on the surface; on the outbound leg the surface of Enceladus was observed to obtain thermal and compositional data. UVIS made a long (5.25 hr) Dione observation to measure its UV spectral albedo and search for an exosphere, and then performed a calibration measurement of the star Spica. ISS made searches for objects in the L5 Lagrange regions of both Enceladus and Rhea. Lastly, Saturn auroral observations were led by UVIS, with repeated slews across the auroral oval, and ISS then performed a satellite search in the region around the Titan L4 Lagrange point.

 

Friday, Nov. 4 (DOY 308)

 

The main engine cover was closed today and will re-open on Sunday, Nov. 6. This was the 68th in-flight cycle of the cover.

 

Saturday, Nov. 5 (DOY 309)

 

Real Time Operations (RTO) uplinked the S71 Instrument Expanded Block (IEB) files over the weekend using the new Autorad tool successfully.

 

Sunday, Nov. 6 (DOY 310)

 

Today Cassini flew by Enceladus at an altitude of 496 kilometers and a speed of 7.4 km/sec. This flyby was designed to obtain the first detailed radar observations of Enceladus. This was also the first close radar pass of any icy moon besides Titan. The results will enable a comparison of the radar properties of a moon with a known composition (Enceladus) with that of Titan. The segment also included plume observations, the composite infrared spectrometer (CIRS) monitoring of hotspot activity, ultraviolet imaging spectrograph (UVIS) observations of Dione and its environment, and searches for Lagrangian companions of Enceladus and Rhea. For more information and raw images, link to: http://saturn.jpl.nasa.gov/news/cassinifeatures/feature20111107/ .

 

Non-targeted flybys of Methone, Pandora, and Calypso occurred today.

 

Monday, Nov. 7 (DOY 311)

 

The Science Forum for S73 was held today. Topics included an overview of science planned for this sequence followed by highlights, unique activities, and highest priority observations as described by the Target Working Team (TWT) and Orbiter Science Team (OST) leads, with comments from the Investigation Scientists and other instrument team representatives.

 

Tuesday, Nov. 8 (DOY 312)

 

Orbit Trim Maneuver (OTM) #299 was performed today. This was the clean-up maneuver following the Enceladus 16 encounter on Nov. 6. The main engine burn began at 5:45PM PDT. Telemetry immediately after the maneuver showed a burn duration of 12.029 seconds, giving a delta-V of 2.09 m/s. All subsystems reported nominal performance after the maneuver.

 

 

 HR


Reply | Messages in this Topic (1)
#5512 From: hexagram14@...
Date: Mon Nov 14, 2011 8:25 pm
Subject: Cassini Image: Spongy Hyperion 		happy_rasta
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Cassini Image: Spongy Hyperion

 





The sponge-like surface of Saturn's moon Hyperion is highlighted in this Cassini portrait, captured during the spacecraft's Sept. 16, 2011, flyby.



Hyperion (168 miles, or 270 kilometers across) has an irregular shape, and it tumbles through its orbit: that is, it does not spin at a constant rate or in a constant orientation. (A standard reference latitude-longitude system has not yet been devised for this moon.) Images such as this one extend previous coverage and allow a better inventory of the surface features, the satellite's shape and changes in its spin. See Encountering Hyperion and Cosmic Blasting Zone to learn more and to watch a movie.



The image was taken in visible blue light with the Cassini spacecraft narrow-angle camera. The view was obtained at a distance of approximately 55,000 miles (88,000 kilometers) from Hyperion and at a Sun-Hyperion-spacecraft, or phase, angle of 37 degrees. Image scale is 1,720 feet (524 meters) per pixel.



The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the mission for NASA's Science Mission Directorate in Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging team is based at the Space Science Institute, Boulder, Colo.



For more information about the Cassini-Huygens mission visit http://saturn.jpl.nasa.gov or http://www.nasa.gov/cassini . The Cassini imaging team homepage is at http://ciclops.org . Credit: NASA/JPL-Caltech/Space Science Institute. Full-Res: PIA14580

 

HR

 

.


Reply | Messages in this Topic (1)
#5513 From: hexagram14@...
Date: Wed Nov 16, 2011 9:40 pm
Subject: The most awesome space video ever made 		happy_rasta
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Time-lapse photography from the ISS. Best viewed  in HD  full-screen!

http://blogs.scientificamerican.com/observations/2011/11/14/the-best-video-o
f-earth-from-space-ever-made/?WT_mc_id=SA_DD_20111116

or

http://tinyurl.com/bl9r62k


HR



.

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#5514 From: hexagram14@...
Date: Wed Nov 16, 2011 10:21 pm
Subject: Liquid Water Evidence on Europa 		happy_rasta
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JPL/NASA News

News release: 2011-355                                                                     Nov. 16, 2011

NASA Probe Data Show Liquid Water Evidence on Europa

The full version of this story with accompanying images is at:
http://www.jpl.nasa.gov/news/news.cfm?release=2011-355&cid=release_2011-355

PASADENA, Calif. -- Data from a NASA planetary mission have provided scientists evidence of what appears to be a body of liquid water, equal in volume to the North American Great Lakes, beneath the icy surface of Jupiter's moon, Europa.

The data suggest there is significant exchange between Europa's icy shell and the ocean beneath. This information could bolster arguments that Europa's global subsurface ocean represents a potential habitat for life elsewhere in our solar system. The findings are published in the scientific journal Nature.

"The data open up some compelling possibilities," said Mary Voytek, director of NASA's Astrobiology Program at agency headquarters in Washington. "However, scientists worldwide will want to take a close look at this analysis and review the data before we can fully appreciate the implication of these results."

NASA's Galileo spacecraft, launched by the space shuttle Atlantis in 1989 to Jupiter, produced numerous discoveries and provided scientists decades of data to analyze. Galileo studied Jupiter, which is the most massive planet in our solar system, and some of its many moons.

One of the most significant discoveries was the inference of a global saltwater ocean below the surface of Europa. This ocean is deep enough to cover the whole surface of Europa and contains more liquid water than all of Earth's oceans combined. However, being far from the sun, the ocean surface is completely frozen. Most scientists think this ice crust is tens of miles thick.

"One opinion in the scientific community has been if the ice shell is thick, that's bad for biology. That might mean the surface isn't communicating with the underlying ocean," said Britney Schmidt, lead author of the paper and postdoctoral fellow at the Institute for Geophysics, University of Texas at Austin. "Now, we see evidence that it's a thick ice shell that can mix vigorously and new evidence for giant shallow lakes. That could make Europa and its ocean more habitable."

Schmidt and her team focused on Galileo images of two roughly circular, bumpy features on Europa's surface called chaos terrains. Based on similar processes seen on Earth -- on ice shelves and under glaciers overlying volcanoes -- they developed a four-step model to explain how the features form. The model resolves several conflicting observations. Some seemed to suggest the ice shell is thick. Others suggest it is thin.

This recent analysis shows the chaos features on Europa's surface may be formed by mechanisms that involve significant exchange between the icy shell and the underlying lake. This provides a mechanism or model for transferring nutrients and energy between the surface and the vast global ocean already inferred to exist below the thick ice shell. This is thought to increase the potential for life there.

The study authors have good reason to believe their model is correct, based on observations of Europa from Galileo and of Earth. Still, because the inferred lakes are several miles below the surface, the only true confirmation of their presence would come from a future spacecraft mission designed to probe the ice shell. Such a mission was rated as the second highest priority flagship mission by the National Research Council's recent Planetary Science Decadal Survey and is being studied by NASA.

"This new understanding of processes on Europa would not have been possible without the foundation of the last 20 years of observations over Earth's ice sheets and floating ice shelves," said Don Blankenship, a co-author and senior research scientist at the Institute for Geophysics, where he leads airborne radar studies of the planet's ice sheets.

Galileo was the first spacecraft to directly measure Jupiter's atmosphere with a probe and conduct long-term observations of the Jovian system. The probe was the first to fly by an asteroid and discover the moon of an asteroid. NASA extended the mission three times to take advantage of Galileo's unique science capabilities, and the spacecraft was put on a collision course into Jupiter's atmosphere in September 2003 to eliminate any chance of impacting Europa.

The Galileo mission was managed by NASA's Jet Propulsion Laboratory in Pasadena, Calif., for the agency's Science Mission Directorate.

JPL is managed for NASA by the California Institute of Technology in Pasadena.

For images and a video animation of the findings, visit:
http://www.jsg.utexas.edu/news/2011/11/scientists-find-evidence-for-great-lake-on-europa/ . For more information about the Galileo mission, visit: http://solarsystem.nasa.gov/galileo/ .


Jia-Rui Cook/Priscilla Vega 818-354-0850/354-1357
Jet Propulsion Laboratory, Pasadena, Calif.
jccook@... / priscilla.r.vega@...

Dwayne Brown 202-358-1726
NASA Headquarters, Washington
Dwayne.c.brown@...

Marc Airhart 512-471-2241
University of Texas at Austin
mairhart@...


- end -



HR

Reply | Messages in this Topic (1)
#5515 From: hexagram14@...
Date: Thu Nov 17, 2011 11:41 pm
Subject: Cassini Chronicles Life of Saturn's Giant Storm 		happy_rasta
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Cassini Chronicles Life of Saturn's Giant Storm

Storm Tail in False Color
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Storm Tail in False Color
This false-color mosaic from NASA's Cassini spacecraft shows the tail of Saturn's huge northern storm. Image credit: NASA/JPL-Caltech/Space Science Institute
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November 16, 2011

New images and animated movies from NASA's Cassini spacecraft chronicle the birth and evolution of the colossal storm that ravaged the northern face of Saturn for nearly a year.

These new full-color mosaics and animations show the storm from its emergence as a tiny spot in a single image almost one year ago, on Dec. 5, 2010, through its subsequent growth into a storm so large it completely encircled the planet by late January 2011.

The monster tempest, which extended north-south approximately 9,000 miles (15,000 kilometers), is the largest seen on Saturn in the past two decades and is the largest by far ever observed on the planet from an interplanetary spacecraft. On the same day that Cassini's high-resolution cameras captured the first images of the storm, Cassini's radio and plasma wave instrument detected the storm's electrical activity, revealing it to be a convective thunderstorm. The storm's active convecting phase ended in late June, but the turbulent clouds it created linger in the atmosphere today.

The storm's 200-day active period also makes it the longest-lasting planet-encircling storm ever seen on Saturn. The previous record holder was an outburst sighted in 1903, which lingered for 150 days. The large disturbance imaged 21 years ago by NASA's Hubble Space Telescope and comparable in size to the current storm lasted for only 55 days.

The collected images and movies from Cassini's imaging team can be seen at http://www.nasa.gov/cassini , http://saturn.jpl.nasa.gov and http://ciclops.org . They include mosaics of dozens of images stitched together and presented in true and false colors.

"The Saturn storm is more like a volcano than a terrestrial weather system," said Andrew Ingersoll, a Cassini imaging team member at the California Institute of Technology in Pasadena. "The pressure builds up for many years before the storm erupts. The mystery is that there's no rock to resist the pressure - to delay the eruption for so many years."

Cassini has taken hundreds of images of this storm as part of the imaging team's "Saturn Storm Watch" campaign. During this effort, Cassini takes quick looks at the storm in between other scheduled observations of either Saturn or its rings and moons. The new images, together with other high-quality images collected by Cassini since 2004, allow scientists to trace back the subtle changes on the planet that preceded the storm's formation and have revealed insights into the storm's development, its wind speeds and the altitudes at which its changes occur.  

The storm first appeared at approximately 35 degrees north latitude on Saturn and eventually wrapped itself around the entire planet to cover approximately 2 billion square miles (5 billion square kilometers). The biggest disturbance Cassini had previously witnessed on Saturn occurred in a latitude band in the southern hemisphere called "Storm Alley" because of the prevalence of thunderstorms in this region. That storm lasted several months, from 2009 into 2010.  That disturbance was actually a cluster of thunderstorms, each of which lasted up to five days or so and affected only the local weather. The recent northern disturbance is a single thunderstorm that raged continuously for more than 200 days and impacted almost one-fifth of the entire northern hemisphere.

"This new storm is a completely different kind of beast compared to anything we saw on Saturn previously with Cassini," said Kunio Sayanagi, a Cassini imaging team associate and planetary scientist at the University of California, Los Angeles. "The fact that such outbursts are episodic and keep happening on Saturn every 20 to 30 years or so is telling us something about deep inside the planet, but we have yet to figure out what it is."

Current plans to continue the mission through 2017 will provide opportunities for Cassini to witness further changes in the planet's atmosphere as the seasons progress to northern summer.

"It is the capability of being in orbit and able to turn a scrutinizing eye wherever it is needed that has allowed us to monitor this extraordinary phenomenon," said Carolyn Porco, Cassini imaging team leader at the Space Science Institute in Boulder, Colo. "Seven years of taking advantage of such opportunities have already made Cassini one of the most scientifically productive planetary missions ever flown."

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. NASA's Jet Propulsion Laboratory in Pasadena manages the mission for the agency's Science Mission Directorate in Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging operations team is based at the Space Science Institute in Boulder, Colo. JPL is a division of Caltech.

For more information about the Cassini-Huygens mission, visit http://saturn.jpl.nasa.gov and http://www.nasa.gov/cassini .

 

HR


Reply | Messages in this Topic (1)
#5516 From: hexagram14@...
Date: Fri Nov 18, 2011 12:47 am
Subject: Cassini Significant Events 11/9/11 - 11/15/11 		happy_rasta
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Cassini Significant Events 11/9/11 - 11/15/11

 

The most recent spacecraft telemetry was acquired on November 15 from the Deep Space Network tracking complex at Canberra, Australia. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

Wednesday, Nov. 9 (DOY 313)

 

Science activities this week while the spacecraft was approaching apoapsis were dominated by Magnetospheric and Plasma Science (MAPS) investigations. The MAPS instruments acquired nearly continuous measurements of Saturn's outer magnetosphere and magnetosheath. By doing this once every four to six months, the MAPS instruments are able to observe Saturn’s magnetosphere over a solar cycle, from one solar minimum to the next, and investigate magnetospheric periodicities and how the Saturn kilometric radiation (SKR) period is imposed on the magnetosphere.

 

Thursday, Nov. 10 (DOY 314)

 

An article called “Saturn and the Solar Wind Send Tiny Particles Flying” was posted on the Cassini web site today. It describes how dust particles act in an unusual way around Saturn. Instead of being attracted to the giant planet as might be expected, dust particles are ejected away from Saturn in streams that move at speeds of more than 100 kilometers per second. Using data from the Cassini mission, a team of scientists has now successfully modeled these dust streams. For more information on this subject, link to: http://saturn.jpl.nasa.gov/news/cassiniscienceleague/science20111110/.

 

Today the Imaging Science Subsystem (ISS) narrow angle camera encountered a machine error and warm start during an idle period and recovered nominally, with no images lost. A new Incident Surprise Anomaly (ISA) report will be opened.

 

Friday, Nov. 11 (DOY 315)

 

The S71 background sequence was signed off and approved on Tuesday, Nov. 8, in preparation for uplink scheduled for today via the Autorad tool.

 

Sunday, Nov. 13 (DOY 317)

 

The Navigation Team is preparing for Orbit Trim maneuver 300 (OTM-300), which is scheduled to execute Wed., Nov. 23. It sets up the trajectory for the dual Dione/Titan flybys. Because this maneuver has a relatively large deterministic delta-V cost (3 m/s) and is executed only 45 minutes from periapsis, delaying to the backup maneuver location would be very costly in terms of delta-V. Due to this sensitivity, the maneuver will be designed early enough to enable six uplink opportunities, thereby eliminating the possibility of a delay to the backup time due to DSN transmitter failure.

 

Monday, Nov. 14 (DOY 318)

 

Port 1 products were due today as part of the S73 Sequence Implementation Process (SIP). The products will be merged and sent out to the flight team for review. Redelivery was requested of two teams to correct pointing designs that stepped outside of their allocated time window.

 

Tuesday, Nov. 15 (DOY 319)

 

In support of S74, the Science Planning and Sequencing (SPST) Team continued work on shifting the sequence boundary between S74 and S75 by approximately 8 hours to fall after Cassini’s Goldstone 70 meter pass on DOY 238 instead of the Madrid 70m pass on DOY 237, to avoid a 70m conflict with the Mars Science Laboratory (MSL) Project during their 30-day-post-Entry-Descent-Landing conditioning phase. This occurs within a Saturn Target Working Team (TWT) segment which spans across the S74-S75 sequence boundary.

 

 

 HR


Reply | Messages in this Topic (1)
#5517 From: hexagram14@...
Date: Wed Nov 23, 2011 11:25 pm
Subject: Cassini Significant Events 11/16/11 - 11/22/11 		happy_rasta
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Cassini Significant Events 11/16/11 - 11/22/11

 

The most recent spacecraft telemetry was acquired on November 22 from the Deep Space Network tracking complex at Canberra, Australia. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

Wednesday, Nov.16 (DOY 320)

 

The S71 sequence began execution today at 2011-320T03:02. The sequence will run for 70 days and conclude on Jan. 24. During that time there will be nine segments; three cross-discipline, one Satellite Orbiter Science Team (SOST), two Saturn, two Titan Orbiter Science Team (TOST), and one Magnetospheric and Plasma Science (MAPS) segment, with three targeted encounters – two Titan (T-79 and T-80) and one Dione flyby (D-3). Also, six Orbit Trim Maneuvers (OTMs) are scheduled, numbered 300 through 306 (300, 300a, 301, 303, 304, and 306).

 

Thursday, Nov. 17 (DOY 321)

 

A feature story called “Cassini Chronicles the Life and Times of Saturn’s Giant Storm” is available on the Cassini web site. It describes how new images and animated movies from the Cassini spacecraft chronicle the birth and evolution of the colossal storm that ravaged the northern face of Saturn for nearly a year. These new full-color mosaics and animations show the storm from its emergence as a tiny spot in a single image almost one year ago, on Dec. 5, 2010, through its subsequent growth into a storm so large it completely encircled the planet by late January 2011. For images and more information on this subject, link to: http://saturn.jpl.nasa.gov/news/cassinifeatures/feature20111117/.

 

A stellar reference unit calibration took place today.

 

Friday, Nov. 18 (DOY 322)

 

Science activities this week, as the spacecraft approached periapsis, were primarily a continuation from last week and focused on Magnetospheric and Plasma Science (MAPS) investigations, with MAPS instruments acquiring nearly continuous measurements of Saturn's magnetosphere. A break in the magnetospheric measurements was made when ISS performed an 8-hour observation of the outer irregular satellite Suttungr.

 

Saturday, Nov. 19 (DOY 323)

 

The Cassini web site has four new Really Simple Syndication (RSS) feeds. In addition to the original RSS feed, which gathers the latest excerpts from the Cassini home page, the four new feeds include All News, Features, the latest images in the Image Gallery, and the latest Raw Images. An RSS feed is a family of web feed formats used to publish frequently updated works. For access to Cassini RSS feeds link to: http://saturn.jpl.nasa.gov/news/latest-cassini-huygens.xml, http://saturn.jpl.nasa.gov/news/latest-cassini-huygens-news-releases.xml, http://saturn.jpl.nasa.gov/news/latest-cassini-huygens-features.xml, and http://saturn.jpl.nasa.gov/news/latest-cassini-huygens-pressimages.xml.

 

Sunday, Nov. 20 (DOY 324)

 

Cassini's twitter account @CassiniSaturn is now live streaming from the Cassini web site. A page is dedicated to the Cassini Saturn personification within the Cassini Mission site. For short and timely newsbytes, click on Twitter "Read The Feed" box at: http://saturn.jpl.nasa.gov/ or link to http://saturn.jpl.nasa.gov/news/twitter/.

 

Monday, Nov. 21 (DOY 325)

 

Twenty three Cassini team members and Outreach staff judged the entries for the Cassini Scientist for a Day 2011 essay contest. The winning students are 5th-12th grade students from Hillsborough, CA, Glen Ellyn, IL, Phoenix, AZ, Paris, KY, Waikoloa, HI, Boston, MA, Orlando, FL, and Fairport, NY. Teachers of the winning students have been notified. The United States edition of the contest included 568 students from 75 classes in 26 states. Internationally, 31 countries are running and participating in their own Cassini scientist for a Day contest.

 

Tuesday, Nov. 22 (DOY 326)

 

The Cassini Tour Atlas was delivered on Thursday, Nov. 17, and successfully re-run for the latest reference trajectory over the weekend. The Tour Atlas examines a Cassini trajectory for a wide variety of scientific opportunities. New products for tour 110818 were posted to the Science Planning and Sequence Team web site today.

 

 HR


Reply | Messages in this Topic (1)
#5518 From: hexagram14@...
Date: Fri Dec 2, 2011 12:57 am
Subject: Cassini Significant Events 11/23/11 - 11/29/11 		happy_rasta
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The most recent spacecraft telemetry was acquired on Nov. 29 from the Deep Space Network tracking complex at Goldstone, California.  The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.
 

 
Wednesday, Nov. 23 (DOY 327)
 
Orbit Trim Maneuver (OTM) #300 was performed today.  This was the periapsis maneuver setting up for the Titan 79 encounter on Dec. 13.  The main engine burn began at 10:45 PM PST.  Telemetry immediately after the maneuver showed a burn duration of 17.175 seconds, giving a delta-V of 2.969 m/s. While the maneuver targets to T79, the next encounter is actually a 100 km flyby of Dione (D3), taking place one day before the T79 encounter. Additional effort is required to make sure T79 should be targeted rather than D3, since not both can be independently targeted, and to make sure the resulting untargeted flyby is still safe.  All subsystems reported nominal performance after the maneuver.
 
Today the backup Sun Sensor Assembly (SSA B) was powered on in preparation for tomorrow's dust crossing; it will be turned off via real time command (RTC) on DOY 331.
 
A non-targeted flyby of Helene occurred today.
 

 
Thursday, Nov. 24 (DOY 328)
 
This week, while the spacecraft was near periapsis, science observations began with the Imaging Science (ISS ) and other optical remote sensing instruments monitoring clouds in Titan's atmosphere from a range of 2.1 million kilometers.  The Ultraviolet Imaging Spectrograph (UVIS), ISS and the Visual and Infrared Mapping Spectrometer (VIMS) observed Saturn's auroral oval for 10 hours.  Around periapsis, the Cosmic Dust Analyzer (CDA) made measurements of the dust environment during the ring plane crossing.  UVIS then performed a 3 hour calibration using the star Spica.  The Composite Infrared Spectrometer (CIRS), ISS, and VIMS completed an 18 hour observation of the faint ring arcs at low elevation and low phase, followed by a 14.5 hour light-curve observation of the outer irregular moon Thrymr performed by ISS and VIMS.  CIRS, ISS and VIMS later performed a 15.5 hour Titan composition observation, and CDA made a 13 hour interstellar dust observation.   Concluding the week, ISS observed a set of some of Saturn's small inner moons, including Epimetheus and Methone.
 
Non-targeted flybys of Enceladus, Epimetheus, and Titan occurred today.
 

 
Friday, Nov. 25 (DOY 329)

The main engine cover was closed yesterday prior to the dust crossing for dust hazard avoidance and was opened today.  This was the 69th in-flight cycle of the cover.
 

 
Saturday, Nov. 26 (DOY 330)
 
OTM-300A and OTM-301, both statistical maneuvers targeting to T79, are scheduled to execute on December 1 and 9 respectively.  After the post OTM-300 orbit determination solution is available, one of these maneuvers will likely end up with a deterministic component.
 

 
Sunday, Nov. 27 (DOY 331)
 
A non-targeted encounter of Titan occurred today.
 

 
Monday, Nov. 28 (DOY 332)
 
The CDA - High Rate Detector (HRD) recovery command file was uplinked today over Goldstone's DSS-14 station and is due to execute on the spacecraft on 2011-334T15:30.  This is in response to two separate recent incidents.  The HRD instrument stopped generating data after 2011-310T23:26; this is currently under investigation.  The CDA instrument also underwent a known anomaly on DOY 2011-327T21:59 when a checksum showed an error. The spacecraft was in the E-ring at the time and the CDA instrument has seen this occur there before.  A reset/reload activity is needed to get CDA back into a normal operating state.  Execution of the command going up on DOY 334/335 includes reset/reload, HRD calibration, and other tests.  Once the results are on the ground, additional real time commanding will ensure proper functioning of the instrument for the upcoming Dione flyby on Dec. 12.

An insider's feature story called "Dr. Jean-Pierre Lebreton, Huygens, and a Salute to the Mars Science Laboratory" is available on the Cassini web site.  It describes an interview with Jean-Pierre Lebreton, the European Space Agency (ESA) Project Scientist for the Huygens mission, just as he retired from a decades-long career with ESA. Though he remains active in research, Dr. Lebreton's departure from ESA is a noteworthy milestone, and this article also honors his many contributions to space science in general and Cassini-Huygens in particular.  For images and more information on this subject, link to:  http://saturn.jpl.nasa.gov/news/cassiniinsider/insider20111128/.
 

 
Tuesday, Nov. 29 (DOY 333)
 
The most recent Cassini-Huygens Analysis and Results of the Mission (CHARM) teleconference was held today.  The topic: "Powerhouses to PacPeople: An update on the recent discoveries by Cassini/CIRS on the nature of the Saturnian satellite surfaces."  A PDF of the presentation package is available at: http://saturn.jpl.nasa.gov/video/products/MultimediaProductsCharm/
An audio recording of the presentation was made and will be linked to the same location within a few days.
 
In June, the decision to turn off the Cassini Plasma Spectrometer (CAPS) was made as a precautionary measure in light of shifting spacecraft bus voltages attributed to malfunctions in the instrument.  An analysis of this situation has been initiated at the NASA Engineering and Safety Center (NESC), with a report expected in January 2012.  The final decision regarding whether or not to turn the instrument back on will be made some time after the release of this report.
Preliminary Sequence Integration and Validation (PSIV) Spacecraft Activity Sequence File (SASF) products were due today as part of the S72 Sequence Implementation Process (SIP).
 
HR

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#5519 From: hexagram14@...
Date: Fri Dec 9, 2011 12:48 am
Subject: Cassini Significant Events 11/30/11 - 12/06/11 		happy_rasta
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Cassini Significant Events 11/30/11 - 12/06/11

 

The most recent spacecraft telemetry was acquired on Dec. 6 from the Deep Space Network tracking complex at Canberra, Australia. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

 

Wednesday, Nov. 30 (DOY 334)

 

The Composite Infrared Spectrometer (CIRS) Flight Software (FSW) 6.0.1 patch was installed onboard today. Prior to this patch, the only timing information for CIRS scans was a time stamp for when the first science sample of each scan was obtained from the detectors and stored into the instrument’s internal memory; however, each scan consists of both a forward and backward motion of the scan mechanism. There was no information on the timing of when the scan mechanism completed scanning forward, obtaining science data, and when it was beginning to travel backward in preparation for the next scan. The patch created a new telemetry point and added new data to the science telemetry stream. This new information is provided for each scan and allows the CIRS team to compute the exact time at which the scan mechanism switches directions and begins traveling backward. It also allows for a derived telemetry point to be generated on the ground to let engineers know the true raw sampling rate of the detectors. The detector sampling is hardware controlled and in normal conditions it is constant. When there is interference at certain reaction wheel rates, the CIRS scan mechanism’s velocity varies and sampling is not at a constant rate. This new information provides the calibration team an improved ability to detect anomalous science data that sometimes results from external mechanical interference.

 

The S74 Engineering Activities Review took place today. At this review, Spacecraft Office personnel take a look at all spacecraft activities to be performed during the S74 sequence.

 

A software patch delivery for the Cassini Information Management System (CIMS) was delivered today and deployed into operations on Thursday, Dec. 1. Several enhancements were provided as part of this release, which are referenced in approved engineering change request (ECR) 112488.

 

Port 2 products were due today as part of the S73 Sequence Implementation Process (SIP). The products were merged and sent out to the flight team for review.

 

 

Thursday, Dec. 1 (DOY 335)

 

Orbit Trim Maneuver (OTM) #300a was performed today. This was the apoapsis maneuver setting up for the Dione 3 encounter on Dec. 12 and the Titan 79 encounter on Dec. 13. The Reaction Control Subsystem (RCS) burn began at 4:30 PM PST. Telemetry immediately after the maneuver showed a burn duration of 13.75 seconds, giving a delta-V of 0.021 m/s. All subsystems reported normal performance after the maneuver.

 

A feature story called “What’s That Sparkle in Cassini’s Eye?” is available on the Cassini web site. It describes how the moon Enceladus, one of the jewels of the Saturn system, sparkles particularly bright in new images obtained by the Cassini spacecraft. The images of the moon, the first ever taken of Enceladus with Cassini's synthetic aperture radar, reveal new details of some of the grooves in the moon's south polar region and unexpected textures in the ice. These images, obtained on Nov. 6, are the highest-resolution images of this region obtained so far. For images and more information on this subject, link to: http://saturn/news/newsreleases/newsrelease20111201/.

 

 

Friday, Dec. 2 (DOY 336)

 

The Navigation Team is in the process of determining if the next scheduled maneuver, OTM-301, will be needed; it’s scheduled to execute on Dec. 9. OTM-303, scheduled to execute on Dec. 17, is the cleanup maneuver for the Dione 3/Titan 79 dual flyby.

 

 

Saturday, Dec. 3 (DOY 337) 

 

This week’s science highlights included three interstellar dust observations performed by the Cosmic Dust Analyzer (CDA). The Imaging Science Subsystem (ISS) performed astrometric observations of some of Saturn's small moons including Helene, Calypso and Epimetheus, followed by five images taken for optical navigation purposes. CIRS made a 23-hour mid-infrared (mid-IR) observation of Saturn to measure upper troposphere and tropopause temperatures. Finally, the Magnetometer (MAG) performed an 8 hour calibration while the spacecraft rolled about its X-axis.

 

Today a member of the Cassini Outreach team received a Visionary Award from the Women’s International Film and Television Showcase (WIFTS). The award is in recognition of her invention, the Blissymbol Printer, which was created for a seventh grade science fair project over 25 years ago.

 

 

Sunday, Dec. 4 (DOY 338)

 

The U.S. Cassini Scientist for a Day winners, finalists, and honorable mention winners have been officially notified, and the names will be posted on the Cassini website next week.

 

In preparation for the upcoming Dione 3 encounter on Monday, Dec. 12, a ‘‘D-3’ flyby page is now available on the Cassini web site along with promotional art. Any noteworthy results from the D-3 flyby as well as additional links and images will be posted at: http://saturn.jpl.nasa.gov/mission/flybys/dione20111212/.

 

 

Monday, Dec. 5 (DOY 339)

 

An encounter strategy meeting was held today to cover the period between Dec. 12 and Jan. 2, Dione and Titan encounters D-3, T-79, and T-80, and maneuvers 303 and 304 in S71.

 

Preliminary Sequence Integration and Validation (PSIV) Spacecraft Activity Sequence File (SASF) – Merge 1 products were published last week as part of the S72 Sequence Implementation Process (SIP). The PSIV-Merge 2 was published today in support of the S72 split needed due to the sequence size. The split of the S72 sequence is planned to fall on DOY-062.

 

 

Tuesday, Dec. 6 (DOY 340)

 

A mission planning forum was held today to review propellant use in S70 and the status of the propellant budgets. A consumables status is provided on a regular basis so the Project can maintain cognizance of propellant usage and end of mission margins.

 

 

 HR


Reply | Messages in this Topic (1)
#5520 From: hexagram14@...
Date: Fri Dec 9, 2011 1:11 am
Subject: Dione 'D-3' Flyby: What Lies Beneath? 		happy_rasta
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http://saturn.jpl.nasa.gov/mission/flybys/dione20111212/

Dione Flyby (D-3) - Dec. 12, 2011


On Dec. 12 the Cassini spacecraft flies by Dione at about 61 miles (99
kilometers) to examine the moon's internal structure. The radio science
measurement should add insight into how highly structured the center of
the small moon is, which in turn should provide clues about its recent
history and possible activity.

The design of this close encounter provides the ion and neutral mass
spectrometer (INMS) a good sample opportunity, and before closest
approach there is also time for the optical remote sensing (ORS)
instruments to observe Enceladus in the near-distance. Then, with the
composite infrared spectrometer (CIRS) in the lead, Cassini can turn
back to Dione to study the moon's icy surface fractures and search
further for signs of activity.

On the outbound leg, the imaging science subsystem (ISS) will lead for
ORS instruments to map Dione with a mosaic. There's also an opportunity
for a scan for the composite infrared spectrometer (CIRS) and a long
observation for the visible and infrared mapping spectrometer (VIMS).

Dione Flyby at a Glance

Dione Flyby
Dec. 12, 2011 (SCET)

Altitude
61 miles (99 kilometers)

Speed
19,500 mph (8.7 km/sec )
 
HR

Reply | Messages in this Topic (1)
#5521 From: hexagram14@...
Date: Fri Dec 9, 2011 1:12 am
Subject: Taking Titan's Temperature 		happy_rasta
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Cassini Titan Flyby (T-79): Dec. 13, 2011


The composite infrared spectrometer (CIRS) gets prime time during the
Titan 'T-79' flyby scheduled for Dec. 13, 2011, a day after the Cassini
spacecraft visits Dione.

CIRS performs a wide variety of observations, including mapping of
surface and atmospheric temperatures. It also takes "limb sounding"
measurements where it inspects a cross section of the atmosphere, which
could provide insights into the transition of the northern polar
circulation from spring to summer. There's also an opportunity to track
newly formed possible mist.

The visible and infrared mapping spectrometer (VIMS) instrument gets a
turn too, and it will observe the area near Belet, the same region where
the imaging science subsystem (ISS) saw extensive surface changes in
Fall 2010.

ISS gets in the game as well, and will image Titan's surface and
atmosphere, while the ultraviolet imaging spectrograph (UVIS) obtains an
"image cube" of Titan's atmosphere. These cubes provide spectral and
spatial information on nitrogen emissions, hydrogen emission and
absorption, absorption by simple hydrocarbons, and the scattering
properties of haze aerosols.

Titan Flyby at a Glance

Titan Flyby
Dec. 13, 2011 [SCET]

Altitude
2,228 miles (3,586 kilometers)

Speed
13,000 mph (5.8 km/sec)
HR

Reply | Messages in this Topic (1)
#5522 From: hexagram14@...
Date: Tue Dec 13, 2011 5:20 pm
Subject: Portraits of Moons Captured by Cassini 		happy_rasta
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http://www.jpl.nasa.gov/news/news.cfm?release=2011-385

Portraits of Moons Captured by Cassini
Jet Propulsion Laboratory
December 12, 2011

NASA's Cassini spacecraft successfully completed its closest-ever pass
over Saturn's moon Dione on Monday, Dec. 12, slaloming its way through
the Saturn system on its way to tomorrow's close flyby of Titan. Cassini
is expected to glide about 2,200 miles (3,600 kilometers) over the Titan
surface on Dec. 13.

In the selection of the raw images obtained during the Cassini Dione
flyby, Dione is sometimes joined by other moons. Mimas appears just
beyond the dark side of Dione in one view. In another view, Epimetheus
and Pandora appear together, along with Saturn's rings.

This Dione encounter was intended primarily for Cassini's composite
infrared spectrometer and radio science subsystem. However, the imaging
team did capture views of the distinctive, wispy fractures on the side
of Dione that always trails in its orbit around Saturn. It also obtained
images of a ridge called Janiculum Dorsa on the hemisphere of Dione that
always leads in its orbit around Saturn. While other flybys produced
more detailed views of the surface, the best resolved images from this
flyby have scales ranging from about 1,100 feet (350 meters) to about
1,600 feet (500 meters) per pixel. Janiculum Dorsa will be imaged by
Cassini at higher resolution in May 2012.

All of Cassini's raw images can be seen at
http://saturn.jpl.nasa.gov/photos/raw/ .

The Cassini-Huygens mission is a cooperative project of NASA, the
European Space Agency and the Italian Space Agency. NASA's Jet
Propulsion Laboratory in Pasadena manages the mission for the agency's
Science Mission Directorate in Washington. The Cassini orbiter and its
two onboard cameras were designed, developed and assembled at JPL. The
imaging operations team is based at the Space Science Institute in
Boulder, Colo. JPL is a division of Caltech.

For more information about the Cassini-Huygens mission, visit
http://saturn.jpl.nasa.gov and http://www.nasa.gov/cassini .

Jia-Rui Cook 818-354-0850
Jet Propulsion Laboratory, Pasadena, Calif.
jccook@...

2011-385
 
HR

Reply | Messages in this Topic (1)
#5523 From: hexagram14@...
Date: Wed Dec 14, 2011 10:04 pm
Subject: Image: Dione, Pandora, and Prometheus As Seen by Cassini 		happy_rasta
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Image: Dione, Pandora, and Prometheus As Seen by Cassini




These raw, unprocessed images of Saturn's moon Dione were taken on Dec. 12, 2011, by NASA's Cassini spacecraft. Although Cassini obtained more detailed images on previous flybys of Dione, this was the spacecraft's closest pass of the moon's surface. Cassini passed within approximately 62 miles (99 kilometers) of Dione. Cassini's previous closest passes of the moon were Oct. 11, 2005 and April 7, 2010. Those flybys each were about 300 miles (500 kilometers) from Dione.



This Dione encounter was intended primarily for Cassini's composite infrared spectrometer and radio science subsystem. However, the imaging team did capture views of the distinctive, wispy fractures on Dione's trailing hemisphere and a ridge called Janiculum Dorsa on the moon's leading hemisphere. The best resolved images from this flyby have scales ranging from about 1,100 feet (350 meters) to about 1,600 feet (500 meters) per pixel. Janiculum Dorsa will be imaged at higher resolution in May 2012.



Dione is joined by other moons in some of these views. Mimas appears just beyond the dark side of Dione in one view and just beyond the edge of the visible disk of Dione in another. Epimetheus and the planet's rings appear in two images, once with Prometheus and once with Pandora. Potato-shaped Prometheus appears at the bottom center of the image in which it appears. Pandora, which is similar in size to Prometheus, appears above the rings and Epimetheus in its image.



The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the mission for NASA's Science Mission Directorate, Washington, D.C. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging operations center is based at the Space Science Institute in Boulder, Colo.



For more information about the Cassini-Huygens mission visit http://saturn.jpl.nasa.gov . The Cassini imaging team homepage is at http://ciclops.org .



Credit: NASA/JPL-Caltech/Space Science Institute Full-Res: N00178768.jpg

 

HR


Reply | Messages in this Topic (1)
#5524 From: hexagram14@...
Date: Fri Dec 16, 2011 10:12 pm
Subject: Cassini Significant Events 12/7/11 - 12/13/11 		happy_rasta
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Cassini Significant Events 12/7/11 - 12/13/11

 

The most recent spacecraft telemetry was acquired on Dec. 13 from the Deep Space Network tracking complex at Canberra, Australia. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

 

Wednesday, Dec. 7 (DOY 341)

 

This week’s science observations included two observations in the Titan monitoring campaign performed by the Imaging Science Subsystem (ISS), Composite Infrared Spectrometer (CIRS), and the Visual and Infrared Mapping Spectrometer (VIMS). ISS made astrometric observations of some of Saturn's smaller moons including Helene and Telesto, along with three sets of mutual event observations - the transit of Rhea across Dione, the transit of Dione across Titan, and the transit of Tethys across Titan. Later, the Cosmic Dust Analyzer (CDA) performed a 14.5 hour interstellar dust observation, and CIRS performed a 12 hour observation of Saturn in order to measure oxygen compounds (H2O, CO2) in the stratosphere. The Ultraviolet Imaging Spectrograph (UVIS) made an observation of the star Spica for calibration purposes, then ISS observed Titan for a double mutual event opportunity - a transit of Titan across Tethys followed by transit of Rhea across Titan, and to make measurements of Titan's atmospheric haze layer. UVIS made repeated slow slews across Saturn's auroral zone, monitoring the Enceladus footprint. CDA took measurements of the E ring during the ring shadow crossing at 4 Rs.

 

 

Friday, Dec. 9 (DOY 343)

 

Orbit Trim Maneuver (OTM) #301 was performed today. This was an approach maneuver setting up for the Dione 3/Titan 79 encounters on Dec. 12 and 13. The Reaction Control Subsystem (RCS) burn began at 2:14 PM PST. Telemetry immediately after the maneuver showed a burn duration of 11.25 seconds, giving a delta-V of 0.018 m/s. All subsystems reported normal performance after the maneuver.

 

Many Cassini scientists attended the American Geophysical Union meeting in San Francisco Dec 5-9, where numerous sessions highlighted Cassini science results.

 

A telecon was held today with personnel from the NASA Engineering and Safety Center and the Southwest Research Institute who are working to better understand the nature of the electrical problems with CAPS and the spacecraft. Progress is being made on the problem, but a final decision on turning the instrument back on is still some time off.

 

 

Saturday, Dec. 10 (DOY 344)

 

The next maneuver, OTM-303, is scheduled to execute on December 17, and is the cleanup maneuver following the Dione 3/Titan 79 flybys. OTM-304 follows on December 22, targeting to the Titan 80 encounter.

 

 

Monday, Dec. 12 (DOY 346)

 

Cassini encountered Dione today at an altitude of 99 kilometers and a speed of 8.7 km/sec to examine the moon’s internal structure. The design of this close encounter also provided the ion and neutral mass spectrometer (INMS) a good sample opportunity, and before closest approach there was also time for the optical remote sensing (ORS) instruments to observe Enceladus from a relatively near distance. For more information on this subject link to: http://saturn.jpl.nasa.gov/mission/flybys/dione20111212/ and http://saturn/news/cassinifeatures/feature20111212/.

 

Today the Cassini Radio Science (RSS) Team completed the S71 Rev 158 Dione (D-3) gravity observation. D-3 is the first Dione flyby with tracking at closest approach. In spite of the relatively small mass of the satellite, the spacecraft acceleration will be clearly detected in the Doppler data. The accuracy of range rate measurements provides good sensitivity not only to the monopole, but also to the quadrupole field, which will be determined for the first time. The observation consisted of three segments (inbound, closest approach, and outbound), and was covered by Beam Wave Guide (BWG) antennae at all three complexes starting with Canberra’s DSS-34, followed by Madrid's DSS-55, and ending with Goldstone's DSS-25. The radio science measurements will add insight into how highly structured the interior of the small moon is, which in turn should provide clues about its recent history and possible activity.

 

The Instrument Operations System/Multi Mission Image Processing Laboratory (IOS/MIPL) expedited processing for the Dione 3 flyby, delivering images to the science team and raw image website during the downlink.

 

The main engine cover was closed on Dec. 10 prior to the dust crossing for dust hazard avoidance and was opened today. This was the 70th in-flight cycle of the cover.

 

Non-targeted flybys of Calypso, Enceladus, and Tethys occurred today.

 

 

Tuesday, Dec. 13 (DOY 347)

 

Cassini encountered Titan at an altitude of 3,586 kilometers and a speed of 5.8 km/sec today. The composite infrared spectrometer (CIRS) was prime during the Titan flyby, about 36 hours after the Dione encounter. This flyby was originally planned to be a Cassini Plasma Spectrometer (CAPS) flyby, but was switched to an Optical Remote Sensing flyby since CAPS was powered off in June due to a power bus short. For more information on the Titan flyby, link to: http://saturn.jpl.nasa.gov/mission/flybys/titan20111213/.

 

HR


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#5525 From: hexagram14@...
Date: Sat Dec 17, 2011 11:54 pm
Subject: The Icy High Peaks of Titan 		happy_rasta
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The Icy High Peaks of Saturn's Titan
 

6a00d8341bf7f753ef014e866e9b10970d-800wi


Zooming in through the orange, hazy atmosphere of Saturn's largest moon, an infrared camera onboard the Cassini spacecraft recorded this view of the tallest mountains ever seen on Titan. The high resolution, false-color mosaic shows a mountain range about 150 kilometers long and about 1.5 kilometers high - likened to the High Sierra mountains of the western United States. Along Titan's mountain ridges lie bright deposits, thought to be methane snow or other organic material. The icy mountains of Titan were probably formed like Earth's mid-ocean ridges, from material welling up to fill gaps created as surface tectonic plates spread apart.

Titan's surface is crisscrossed with mountain ranges. NASA scientists have discovered that the mountains form as the moon shrinks as it cools, wrinkling the surface like a raisin. Since the formation of Titan, which scientists believe occurred around four billion years ago, the moon's interior has cooled significantly. But the moon is still releasing hundreds of gigawatts of power, some of which may be available for geologic activity. The result, according to the model, was a shortening of the radius of the moon by about seven kilometers (four miles) and a decrease in volume of about one percent.



A new model developed by scientists working with radar data obtained by NASA's Cassini spacecraft shows that differing densities in the outermost layers of Titan can account for the unusual surface behavior. Titan is slowly cooling because it is releasing heat from its original formation and radioactive isotopes are decaying in the interior. As this happens, parts of Titan's subsurface ocean freeze over, the outermost ice crust thickens and folds, and the moon shrivels up.



"Titan is the only icy body we know of in the solar system that behaves like this," said Giuseppe Mitri, the lead author of the paper and a Cassini radar associate based at the California Institute of Technology in Pasadena. "But it gives us insight into how our solar system came to be."



An example of this kind of process can also be found on Earth, where the crumpling of the outermost layer of the surface, known as the lithosphere, created the Zagros Mountains in Iran, Mitri said.



Titan's highest peaks rise up to about two kilometers (6,600 feet), comparable to the tallest summits in the Appalachian Mountains. Cassini was the first to spot Titan's mountains in radar images in 2005. Several mountain chains on Titan exist near the equator and are generally oriented west-east. The concentration of these ranges near the equator suggests a common history.



While several other icy moons in the outer solar system have peaks that reach heights similar to Titan's mountain chains, their topography comes from extensional tectonics -- forces stretching the ice shell -- or other geological processes. Until now, scientists had little evidence of contractional tectonics -- forces shortening and thickening the ice shell. Titan is the only icy satellite where the shortening and thickening are dominant.



Mitri and colleagues fed data from Cassini's radar instrument into computer models of Titan developed to describe the moon's tectonic processes and to study the interior structure and evolution of icy satellites. They also made the assumption that the moon's interior was only partially separated into a mixture of rock and ice, as suggested by data from Cassini's radio science team.



Scientists tweaked the model until they were able to build mountains on the surface similar to those Cassini had seen. They found the conditions were met when they assumed the deep interior was surrounded by a very dense layer of high-pressure water ice, then a subsurface liquid-water-and-ammonia ocean and an outer water-ice shell. So the model, Mitri explained, also supports the existence of a subsurface ocean.



Each successive layer of Titan's interior is colder than the one just inside it, with the outermost surface averaging a chilly 94 Kelvin (minus 290 degrees Fahrenheit). So cooling of the moon causes a partial freezing of the subsurface liquid ocean and thickening of the outer water ice shell. It also thickens the high-pressure ice. Because the ice on the crust is less dense than the liquid ocean and the liquid ocean is less dense than the high-pressure ice, the cooling means the interior layers lose volume and the top "skin" of ice puckers and folds.



"These results suggest that Titan's geologic history has been different from that of its Jovian cousins, thanks, perhaps, to an interior ocean of water and ammonia," said Jonathan Lunine, a Cassini interdisciplinary scientist for Titan and co-author on the new paper. Lunine is currently based at the University of Rome, Tor Vergata, Italy. "As Cassini continues to map Titan, we will learn more about the extent and height of mountains across its diverse surface."



The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. JPL manages the Cassini-Huygens mission for NASA's Science Mission Directorate. The Cassini orbiter was designed, developed and assembled at JPL. The radar instrument was built by JPL and the Italian Space Agency, working with team members from the United States and several European countries. JPL is a division of the California Institute of Technology in Pasadena.


 



                           6a00d8341bf7f753ef014e5f940d2c970c-800wi



Image credit top of page:   VIMS Team, U. Arizona, ESA, NASA



Image credit bottom: This mosaic, made from radar images obtained by NASA’s Cassini spacecraft, shows mountainous terrain on Saturn’s moon Titan in the moon’s northern hemisphere, north of the Aaru region. credit: NASA/JPL-Caltech

 

Posted at 08:54 AM |

 




HR

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#5526 From: hexagram14@...
Date: Wed Dec 21, 2011 8:22 pm
Subject: Enceladus and Epimetheus Dwarfed by The Immensity of Saturn's Rings 		happy_rasta
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Enceladus and Epimetheus Dwarfed by The Immensity of Saturn's Rings
 



A pair of Saturn's moons appear insignificant compared to the immensity of the planet in this Cassini spacecraft view along the terminator where day transitions to night.



The larger moon Enceladus (313 miles, or 504 kilometers across) is also on the left, just a bit closer to the center of the image. Epimetheus (70 miles, or 113 kilometers across) appears as a tiny black speck on the far left of the image, left of Enceladus, just below the thin line of the rings. The rings cast wide shadows on the southern hemisphere of the planet.



This view looks toward the northern, sunlit side of the rings from just above the ringplane. The image was taken with the Cassini spacecraft wide-angle camera on Nov. 4, 2011 using a spectral filter sensitive to wavelengths of near-infrared light centered at 752 nanometers. The view was acquired at a distance of approximately 746,000 miles (1.2 million kilometers) from Saturn and roughly 600,000 miles (1 million kilometers) from Enceladus and Epimetheus. Image scale is about 47 miles (75 kilometers) per pixel on Saturn, 37 miles (60 kilometers) per pixel on Enceladus and 41 miles (66 kilometers) per pixel Epimetheus.


The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the mission for NASA's Science Mission Directorate in Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging team is based at the Space Science Institute, Boulder, Colo.



For more information about the Cassini-Huygens mission visit http://saturn.jpl.nasa.gov or http://www.nasa.gov/cassini . The Cassini imaging team homepage is at http://ciclops.org . Credit: NASA/JPL-Caltech/Space Science Institute. Full-Res: PIA14587

 

HR


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#5527 From: hexagram14@...
Date: Fri Dec 23, 2011 1:34 am
Subject: Cassini Significant Events 12/14/11 - 12/20/11 		happy_rasta
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The most recent spacecraft telemetry was acquired on Dec. 20 from the Deep Space Network tracking complex at Madrid, Spain.  The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 


Wednesday, Dec. 14 (DOY 348)

Real-time commands were uplinked today and verified over Canberra's DSS-43 track in support of S71's Imaging Science Subsystem (ISS) Real Time (RT) Memory Readout (MRO) and the telemetry mode changes in response to the DSN station allocation changes.  The commands will execute on the spacecraft on DOY 354T12:02:59 and 2012-003T22:13:41 respectively.

 


Thursday, Dec. 15 (DOY 349)

The ISS team performed memory readouts of the error/mark table and heap/stack registers.  These memory readouts may provide more information about recent Narrow Angle Camera warm starts.

 

Friday, Dec. 16 (DOY 350)

In support of S72 activities, the Science Planning and Sequencing Team (SPST) delayed the Final Sequence Integration and Validation (FSIV) Sequence Change Request (SCR) meeting from this week to January 5, 2012, to allow more time for the effects of DSN station allocation changes to be worked.

 

Saturday, Dec. 17 (DOY 351)

Orbit Trim Maneuver#303 was performed today.  This was a cleanup maneuver following the Dione 3/Titan 79 flybys and setting up for the Titan 80 encounter on January 2.   The main engine burn began at 1:44 AM PST.  Telemetry immediately after the maneuver showed a burn duration of 2.923 seconds, giving a delta-V of 0.489 m/s.  All subsystems reported normal performance after the maneuver.

 

Sunday, Dec. 18 (DOY 352)

The Navigation Team is in the process of determining if the next scheduled maneuver, OTM-304, the T80 approach maneuver, will be needed; it's scheduled to execute on Dec. 22.  OTM-306, scheduled to execute on January 16, is the cleanup maneuver for the Titan 80 flyby.

The new Cassini Mission Assurance Manager (MAM) met with team leads to understand their roles and responsibilities, and continued working old Incident Surprise Anomaly (ISA) reports while supporting sequence activities and becoming familiarized with the Project Risk Database.

 

Monday, Dec. 19 (DOY 353)

A Delivery Coordination Meeting for the Maneuver Automation Software (MAS) v9.2 took place today.  This latest version of MAS included a number of operational enhancements which are referenced in approved engineering change request (ECR) 112360.

Preliminary agendas and a calendar have been posted on the newly revamped Project Science web site in preparation for the upcoming Project Science Group (PSG) meeting #56, the week of Jan. 30-Feb. 3, 2012.
 

 


Tuesday, Dec. 20 (DOY 354)

Weekly meetings with the NASA Engineering and Safety Center review board are being held to investigate the Cassini Plasma Spectrometer (CAPS) and Radioisotope Thermoelectric Generator (RTG) power subsystem anomaly.  Meetings will continue until a recommendation can be made regarding whether or not to turn the CAPS instrument back on.

This week's science activities began with finishing up the T79 Titan flyby observations, including a temperature map to monitor seasonal changes in the Titan stratosphere performed by the Composite Infrared Spectrometer (CIRS), and global mapping of cloud coverage at 100 km/pixel resolution conducted by the Visual and Infrared Mapping Spectrometer (VIMS).  The Imaging Science Subsystem (ISS) then monitored Titan for changes in cloud coverage, with a brief interruption for a RADAR calibration.  Further Titan monitoring was performed by the Optical Remote Sensing (ORS) instruments from a more distant vantage point while the spacecraft was on approach to apoapsis.  The Cosmic Dust Analyzer (CDA) completed one 15 hour and two 13 hour interstellar dust observations, and ISS made astrometric measurements of some of Saturn's small moons, including Janus, Pandora and Atlas.  The Ultraviolet Imaging Spectrograph (UVIS) concluded the week with a 15 hour scan of the system to measure hydrogen in Saturn's inner magnetosphere.

 
HR

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#5528 From: "Stephen van Vuuren" <stephen@...>
Date: Wed Dec 28, 2011 5:05 pm
Subject: More Cassini and other footage from my film 		stephen_v2
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I've uploaded couple of new clips from my non-profit project "Outside In" (www.outsideinthemovie.com). 

 

First is an improved and extended version of the clip that went viral. http://vimeo.com/33933151 

 

Second, there was some disbelief (not here) that I was using only photographs instead of 3D models, texture maps or camera projection, so I've uploaded some unfinished, work-in-progress stuff where it's easier for average person to see photograph as the source: http://vimeo.com/34001144 

 

Also, a fan of the film was so inspired by the film that he's offered to match up to $1000 of any donations until the end of the year. If you would like to help and need a tax-deduction feel free to chip in a few: http://www.rockethub.com/projects/4649-outside-in-mini-fundraiser-imax-space-film 

 

Happy Holidays to all,

 

stephen van vuuren

336.202.4777

 

http://www.sv2studios.com/

http://www.outsideinthemovie.com/

http://www.stephenv2.me/

 

A film is – or should be – more like music than like fiction. It should be a progression of moods and feelings. The theme, what’s behind the emotion, the meaning, all that comes later.

Stanley Kubrick


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#5529 From: hexagram14@...
Date: Thu Dec 29, 2011 3:53 am
Subject: Titan Flyby (T-80): A Southern Swing High Over Titan 		happy_rasta
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T-80: A Southern Swing High Over Titan


 

On this high-altitude encounter of Titan, the imaging science subsystem (ISS) will perform high-resolution observations around closest-approach along the anti-Saturnian and trailing hemispheres at mid- to high southern latitudes.

This is one of ISS' so-called "10-pointer" flybys, i.e. one of the two scientifically most significant Titan fly-bys for ISS during the Solstice mission. As the lead instrument on the inbound approach to Titan, the composite infrared spectrometer (CIRS) instrument views Titan at various distances and spectral resolutions to make maps of atmospheric and surface temperature. After closest approach, RADAR will do radiometry of the sub-Saturn hemisphere. Outbound, the visible and infrared mapping spectrometer (VIMS) will perform stellar occultations of the stars CW Leo and R Leo, which will constrain the composition and the spectral properties of Titan's atmosphere. During the flyby, the radio and plasma wave science (RPWS) will measure thermal plasmas in Titan's ionosphere and surrounding environment, search for lightning in Titan's atmosphere, and investigate the interaction of Titan with Saturn's magnetosphere.

 

Map of Titan
 
  This global digital map of Saturn's moon Titan was created using images taken by the Cassini spacecraft's imaging science subsystem (ISS). The map was released Oct. 26, 2011, and the most recent data in it is from April 2011.
+ Image Details
+ More Titan Information

Map of Titan
 
  This global digital map of Saturn's moon Titan was created using images taken by the Cassini spacecraft's imaging science subsystem (ISS). The map was released Oct. 26, 2011, and the most recent data in it is from April 2011.
+ Image Details
+ More Titan Information

Map of Titan

 

http://saturn.jpl.nasa.gov/mission/flybys/titan20120102/

 

HR

 


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#5530 From: hexagram14@...
Date: Thu Dec 29, 2011 7:52 pm
Subject: Photo: Titan and Dione As Seen by Cassini 		happy_rasta
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Photo: Titan and Dione As Seen by Cassini

 



Saturn's third-largest moon Dione can be seen through the haze of its largest moon, Titan, in this view of the two posing before the planet and its rings from NASA's Cassini spacecraft.



This view looks toward the anti-Saturn side of Titan (3200 miles, 5150 kilometers across) and Dione (698 miles, 1123 kilometers across). North is up on the moons. This view looks toward the northern, sunlit side of the rings from just above the ring plane.



Images taken using red, green and blue spectral filters were combined to create this natural color view. The images were obtained with the Cassini spacecraft narrow-angle camera on May 21, 2011 at a distance of approximately 1.4 million miles (2.3 million kilometers) from Titan 2 million miles (3.2 million kilometers) from Dione. Image scale is 9 miles (14 kilometers) per pixel on Titan and 12 miles (19 kilometers) on Dione.



For more information about the Cassini-Huygens mission visit http://www.nasa.gov/cassini and http://saturn.jpl.nasa.gov . The Cassini imaging team homepage is at http://ciclops.org


Image credit: NASA/JPL-Caltech/Space Science Institute. Images.

 

HR


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#5531 From: hexagram14@...
Date: Tue Jan 3, 2012 6:17 pm
Subject: Watch the skies tonight 		happy_rasta
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Space Weather News for Jan. 3, 2012
http://spaceweather.com

FIRST METEOR SHOWER OF 2012: The annual Quadrantid meteor shower peaks on Wednesday morning, Jan. 4th, when Earth passes through a narrow stream of debris from a comet thought to have broken apart some 500 years ago.  The shower is expected to be strong (as many as 100 meteors per hour), but elusive, with a peak that lasts no longer than a couple of hours.  The shower's radiant near Polaris favors observers in the northern hemisphere.  Images, live audio from a meteor radar, and more information are available on today's edition of http://spaceweather.com.
 
HR
 
 
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#5532 From: hexagram14@...
Date: Wed Jan 4, 2012 10:16 pm
Subject: Image: Titan and Saturn 		happy_rasta
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Image: Titan and Saturn




The colorful globe of Saturn's largest moon, Titan, passes in front of the planet and its rings in this true color snapshot from NASA's Cassini spacecraft.

The north polar hood can be seen on Titan (3200 miles, 5150 kilometers across) and appears as a detached layer at the top of the moon here. See PIA08137 and PIA09739 to learn more about Titan's atmosphere and the north polar hood.

This view looks toward the northern, sunlit side of the rings from just above the ring plane.

Images taken using red, green and blue spectral filters were combined to create this natural color view. The images were obtained with the Cassini spacecraft narrow-angle camera on May 21, 2011 at a distance of approximately 1.4 million miles (2.3 million kilometers) from Titan. Image scale is 9 miles (14 kilometers) per pixel on Titan.

For more information about the Cassini-Huygens mission visit http://www.nasa.gov/cassini and http://saturn.jpl.nasa.gov . The Cassini imaging team homepage is at http://ciclops.org

Image credit: NASA/JPL-Caltech/Space Science Institute. Images.

 

HR


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#5533 From: hexagram14@...
Date: Wed Jan 4, 2012 10:21 pm
Subject: New Computer Model Explains Lakes and Storms on Titan 		happy_rasta
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New Computer Model Explains Lakes and Storms on Titan

image

Saturn's largest moon, Titan, is an intriguing, alien world that's covered in a thick atmosphere with abundant methane. With an average surface temperature of a brisk -300 degrees Fahrenheit (about 90 kelvins) and a diameter just less than half of Earth's, Titan boasts methane clouds and fog, as well as rainstorms and plentiful lakes of liquid methane. It's the only place in the solar system, other than Earth, that has large bodies of liquid on its surface.

The origins of many of these features, however, remain puzzling to scientists. Now, researchers at the California Institute of Technology (Caltech) have developed a computer model of Titan's atmosphere and methane cycle that, for the first time, explains many of these phenomena in a relatively simple and coherent way.

In particular, the new model explains three baffling observations of Titan. One oddity was discovered in 2009, when researchers led by Caltech professor of planetary science Oded Aharonson found that Titan's methane lakes tend to cluster around its poles -- and noted that there are more lakes in the northern hemisphere than in the south.

Secondly, the areas at low latitudes, near Titan's equator, are known to be dry, lacking lakes and regular precipitation. But when the Huygens probe landed on Titan in 2005, it saw channels carved out by flowing liquid -- possibly runoff from rain. And in 2009, Caltech researchers discovered raging storms that may have brought rain to this supposedly dry region.

Finally, scientists uncovered a third mystery when they noticed that clouds observed over the past decade -- during summer in Titan's southern hemisphere -- cluster around southern middle and high latitudes.

Scientists have proposed various ideas to explain these features, but their models either can't account for all of the observations, or do so by requiring exotic processes, such as cryogenic volcanoes that spew methane vapor to form clouds. The Caltech researchers say their new computer model, on the other hand, can explain all these observations -- and does so using relatively straightforward and fundamental principles of atmospheric circulation.

"We have a unified explanation for many of the observed features," says Tapio Schneider, the Frank J. Gilloon Professor of Environmental Science and Engineering. "It doesn't require cryovolcanoes or anything esoteric." Schneider, along with Caltech graduate student Sonja Graves, former Caltech graduate student Emily Schaller (PhD '08), and Mike Brown, the Richard and Barbara Rosenberg Professor and professor of planetary astronomy, have published their findings in the January 5 issue of the journal Nature.

Schneider says the team's simulations were able to reproduce the distribution of clouds that's been observed -- which was not the case with previous models. The new model also produces the right distribution of lakes. Methane tends to collect in lakes around the poles because the sunlight there is weaker on average, he explains. Energy from the Sun normally evaporates liquid methane on the surface, but since there's generally less sunlight at the poles, it's easier for liquid methane there to accumulate into lakes.

But then why are there more lakes in the northern hemisphere? Schneider points out that Saturn's slightly elongated orbit means that Titan is farther from the Sun when it's summer in the northern hemisphere. Kepler's second law says that a planet orbits more slowly the farther it is from the Sun, which means that Titan spends more time at the far end of its elliptical orbit, when it's summer in the north. As a result, the northern summer is longer than the southern summer. And since summer is the rainy season in Titan's polar regions, the rainy season is longer in the north. Even though the summer rains in the southern hemisphere are more intense -- triggered by stronger sunlight, since Titan is closer to the Sun during southern summer -- there's more rain over the course of a year in the north, filling more lakes.

In general, however, Titan's weather is bland, and the regions near the equator are particularly dull, the researchers say. Years can go by without a drop of rain, leaving the lower latitudes of Titan parched. It was a surprise, then, when the Huygens probe saw evidence of rain runoff in the terrain. That surprise only increased in 2009 when Schaller, Brown, Schneider, and then-postdoctoral scholar Henry Roe discovered storms in this same, supposedly rainless, area.

No one really understood how those storms arose, and previous models failed to generate anything more than a drizzle. But the new model was able to produce intense downpours during Titan's vernal and autumnal equinoxes -- enough liquid to carve out the type of channels that Huygens found. With the model, the researchers can now explain the storms. "It rains very rarely at low latitudes," Schneider says. "But when it rains, it pours."

The new model differs from previous ones in that it's three-dimensional and simulates Titan's atmosphere for 135 Titan years -- equivalent to 3,000 years on Earth -- so that it reaches a steady state. The model also couples the atmosphere to a methane reservoir on the surface, simulating how methane is transported throughout the moon.

The model successfully reproduces what scientists have already seen on Titan, but perhaps what's most exciting, Schneider says, is that it also can predict what scientists will see in the next few years. For instance, based on the simulations, the researchers predict that the changing seasons will cause the lake levels in the north to rise over the next 15 years. They also predict that clouds will form around the north pole in the next two years. Making testable predictions is "a rare and beautiful opportunity in the planetary sciences," Schneider says. "In a few years, we'll know how right or wrong they are.

"This is just the beginning," he adds. "We now have a tool to do new science with, and there's a lot we can do and will do."

# # #

The research described in the Nature paper, "Polar methane accumulation and rainstorms on Titan from simulations of the methane cycle," was supported by a NASA Earth and Space Science Fellowship and a David and Lucile Packard Fellowship.

Nature paper: http://dx.doi.org/10.1038/nature10666

 

HR


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#5534 From: hexagram14@...
Date: Fri Jan 6, 2012 1:25 am
Subject: Cassini Significant Events 12/21/11 - 1/3/12 		happy_rasta
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The most recent spacecraft telemetry was acquired on January 3 from the Deep Space Network tracking complex at Canberra, Australia.  The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at:

 
Wednesday, December. 21 (DOY 355)
 
Science observations over the past two weeks included a series of observations in the Titan monitoring campaign by the Imaging Science (ISS), the Composite Infrared Spectrometer (CIRS), and the Visual and Infrared Mapping Spectrometer (VIMS).  ISS also performed a number of astrometric observations of some of Saturn's small moons, as well as a 15 hour observation of the outer irregular moon Suttungr.  The Ultraviolet Imaging Spectrograph (UVIS) performed two long slow scans of the inner magnetosphere to map hydrogen, and also observed Saturn's aurora for 11 hours.  The Magnetometer performed a 7 hour calibration while the spacecraft rolled about its X-axis.  CIRS completed a 23 hour mid-infrared (mid-IR) map of Saturn to determine upper troposphere and tropopause temperature, followed by a 13 hour interstellar dust observation performed by the Cosmic Dust Analyzer (CDA).  Later, CIRS performed a 12 hour observation of Saturn in order to measure oxygen compounds (H2O, CO2) in the stratosphere.

 
Thursday, December. 22 (DOY 356)

A feature story called "NASA's Cassini Delivers Holiday Treats from Saturn" is available on the Cassini web site.  It describes how radio signals from the Cassini spacecraft have delivered a holiday package of images. The pictures, from Cassini's imaging team, show Saturn's largest, most colorful ornament, Titan, and other icy baubles in orbit around the planet.  For images and more information on this subject, link to:
http://saturn.jpl.nasa.gov/news/newsreleases/newsrelease20111222/.
 
Orbit Trim Maneuver (OTM) #304 was performed today.  This was the apoapsis maneuver setting up for the Titan 80 encounter on January 2.  The Reaction Control Subsystem (RCS) burn began at 3:14 PM PST.  Telemetry immediately after the maneuver showed a burn duration of 10.125 seconds, giving a delta-V of 0.0164 m/s.  All subsystems reported normal performance after the maneuver.
 
An encounter strategy meeting was held today to cover the period between Jan. 2 and Jan. 30, Titan flybys T80 and T81, and maneuver OTM-306 in S71.
 
A Delivery Coordination Meeting for the Instrument Operations (IO) /Multi-Mission Image Processing Laboratory (MIPL) ground software delivery CAS D40 took place today.  This latest version included multi-mission updates, enhancements and new capabilities for the Cassini Solstice mission, bug fixes, and documentation updates which are referenced in approved engineering change request (ECR) 112079. This delivery transitioned smoothly to operations on December. 23.

 
Friday, December. 23 (DOY 357)

No signal was detected from the spacecraft today at the beginning of track at Deep Space Station (DSS) DSS-43, the Canberra 70 meter station.  Additional tracking was obtained at Canberra's DSS-45 and Goldstone's DSS-14 to no avail. The 2-way coherent signal was acquired at the one round trip light-time point into the track as usual, indicating it was a spacecraft problem and not a ground system error.  Incident Surprise Anomaly (ISA) #50901 and Discrepancy Report (DR) C108400 were submitted to document this spacecraft anomaly. Commands were sent on December. 25 to inhibit the ultra-stable oscillator (USO) and use the auxiliary oscillator as the frequency source for the downlink signal. The spacecraft has operated in this mode for every pass starting on December. 27, and telemetry is being received for entire passes again. Data loss was limited to two round-trip light time periods. Analysis of the problem has been delayed because of the holidays with many of the key engineers being unavailable, but it is now well underway.

A feature story called "Cassini Top Images of 2011" is available on the Cassini web site.  It showcases the Cassini scientists' picks of the top images from 2011 with many close-up views of Saturn and its storm. For images and more information on this subject, link to:

 
Saturday, December. 24 (DOY 358)
 
The IO/ISS team has completed further analysis of recent memory readouts of the error/mark table and heap/stack registers.  The recent machine error (ISA-50585) was discovered to have been caused by a Bus Interface Unit (BIU) memory issue, which has been observed in the past.
 
Monday, December. 26 (DOY 360)
 
An image of a raging storm system on Saturn was Astronomy Picture of the Day today. It is available at: http://apod.nasa.gov/apod/ap111226.html

 
Tuesday, December. 27 (DOY 361)
 
The Attitude and Articulation Control Subsystem (AACS) Periodic Engineering Maintenance was completed today.  This activity, performed approximately once every three months, spins up the backup reaction wheel assembly for lubrication purposes and exercises the back-up engine gimbal actuator.

 
Wednesday, December. 28 (DOY 362)
 
A glimpse at the year ahead is now available on the "Saturn Tour Dates" page.  For details on the subject link to: http://saturn.jpl.nasa.gov/mission/saturntourdates/
 
 
Thursday, December. 29 (DOY 363)

Earlier this month, the U.S. Cassini Scientist for a Day winners, finalists, and honorable mention winners were officially notified, and their names were posted on the Cassini website.  The winners and their photos and essays are now posted on the "Meet the Winners" page at:

 
Monday, January 2 (DOY 2)

Cassini encountered Titan at an altitude of 29,415 kilometers and a speed of 5.5 km/sec today.  On this high-altitude encounter, the imaging science subsystem (ISS) performed high-resolution observations around closest-approach along the anti-Saturnian and trailing hemispheres at mid- to high southern latitudes.  This is one of ISS's so-called "10-pointer" flybys, i.e. one of the two scientifically most significant Titan flybys for ISS during the Solstice mission.  For more information on the flyby, link to:
http://saturn.jpl.nasa.gov/mission/flybys/titan20120102/.

 
HR
 
 

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#5535 From: Sean Mac <macsean1@...>
Date: Wed Jan 11, 2012 2:57 pm
Subject: Soaring on Titan: Drone Airplane Could Scout Saturn's Moon 		seanzedd
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As the article says "We have the technology". Do we have the will and the budget?


Sean Mac





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#5536 From: hexagram14@...
Date: Thu Jan 12, 2012 11:04 pm
Subject: Cassini Significant Events 1/4/12 - 1/10/12 		happy_rasta
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Cassini Significant Events 1/4/12 - 1/10/12

 

The most recent spacecraft telemetry was acquired on Jan. 9 from the Deep Space Network tracking complex at Goldstone, California. The Cassini spacecraft is in an excellent state of health and with the exception of the CAPS instrument being powered off, all subsystems are operating normally. Information on the present position and speed of the Cassini spacecraft may be found on the "Present Position" page at: http://saturn.jpl.nasa.gov/mission/presentposition/.

 

 

Wednesday, Jan. 4 (DOY 004)

 

A news release called “New Computer Model Explains Lakes and Storms on Titan” is available on the Caltech Media Relations web site. Saturn's largest moon, Titan, is an intriguing, alien world that's covered in a thick atmosphere with abundant methane. With an average surface temperature of a brisk -300 degrees Fahrenheit and a diameter just less than half of Earth's, Titan boasts methane clouds and fog, as well as rainstorms and plentiful lakes of liquid methane. It's the only place in the solar system, other than Earth, that has large bodies of liquid on its surface. Using a combination of ground-based and Cassini data, researchers at Caltech have developed a computer model of Titan's atmosphere and methane cycle that explains many of these phenomena in a relatively simple and coherent way. For more information on this subject link to: http://media.caltech.edu/press_releases/13484.

 

 

Thursday, Jan. 5 (DOY 005)

 

Science activities this week focused on a number of observations by the Imaging Science Subsystem (ISS) and other Optical Remote Sensing (ORS) instruments. On approach to periapsis, ISS took a look at Enceladus’ plumes and the Composite Infrared Spectrometer (CIRS) performed a Saturn Limb Map observation to obtain stratospheric thermal structure by means of limb sounding in the mid-infrared. ISS and VIMS performed two Saturn emission angle scans by observing different emission angles in different latitude bands; these data will help to understand the photometric characteristics of Saturn at different wavelengths. ISS took a look at Titan as part of the Titan monitoring campaign, while CIRS recorded a Saturn mid-IR map to determine upper troposphere and tropopause temperatures. Concluding the week, the ORS teams made further observations of Titan, and a set of complementary observations by ISS and CIRS measured Saturn winds and composition. Meanwhile, back on Earth, members of the UVIS team met for a team meeting at Caltech, Jan 5-7, to discuss science results and plans for future observations.

 

 

Friday, Jan. 6 (DOY 006)

 

The Cassini Navigation team accepted formal delivery of Monte, the replacement tool for its legacy navigation software, and began using it in operations today. The purpose of the Monte software is to provide all navigation-related functions in a single, integrated system.

 

 

Saturday, Jan. 7 (DOY 007)

 

Members of the Science Planning and Sequence Team (SPST) supported multiple meetings with DSN schedulers and Section 317 representatives to discuss issues related to late DSN station allocation deliveries and scheduling software issues.

 

The Cassini Mission Assurance Manager started reviewing the Project Risk database and scheduled a meeting with the Instrument Operations Team lead to go over instrument-related risks; these risk descriptions were last updated in 2009. The MAM will work with each team lead to update the rationale and risk rating, and for next few weeks will start scheduling meetings with each team lead, while continuing to support sequence development activities as needed.

 

Sunday, Jan. 8 (DOY 008)

 

The Navigation Team is in the process of determining if the next scheduled maneuver, Orbit Trim Maneuver (OTM) #306, is needed; it’s scheduled to execute on Jan. 16. OTM-306 is the sole maneuver between Titan flyby T-80 and T-81, a situation made possible by the fact that both of these are high altitude flybys.

 

 

Monday, Jan. 9 (DOY 009)

 

The Ultra Stable Oscillator (USO) was powered off today for 30 minutes. This was a diagnostic step in the investigation of the USO anomaly that occurred on Dec. 23. The telemetry received while turning the USO equipment off and back on was as expected. Further analysis of this anomaly is still ongoing.

 

Both ISS and VIMS lost some data and encountered degraded products due to the USO anomaly that started on DOY 357. The carrier tracking loop bandwidth has been changed to 10 Hz over the one-way portion of each tracking pass for which the auxiliary oscillator is now used, and as result, data quality has improved to where it was previously on the USO.

 

 

Tuesday, Jan. 10 (DOY 010)

 

A feature story called “Cassini Top 10 Science Highlights -- 2011” is available on the Cassini web site. All throughout 2011, the Cassini spacecraft collected science data at a rapid pace. Mission scientists provided exciting results all year long, from scrutinizing a huge new storm on Saturn, to discovering salty particles in Enceladus’ plumes, to studying Saturn’s rings with radio science experiments. For images and a look at last year’s best science, link to: http://saturn.jpl.nasa.gov/news/cassinifeatures/feature20120110/.

 

The Instrument Operations (IO) /Multi-Mission Image Processing Laboratory (MIPL) had a planned downtime today to switch two operations servers to backup hardware. This was done to allow firmware and patch updates to the T2 Logical Domains (LDOMs) hosting the operations and data storage (ZFS) servers.

 

 

HR

 

 


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