From all at SSL
As the #MAVEN spacecraft begins to collect science data over the next few weeks, images, visualizations, and other science data products that have been released to the public will be available online.
Early results are available now and we expect much more to come, as MAVEN begins its one-Earth year primary mission in early to mid-November.
Article Courtesy of LASP at the University of Colorado Boulder
The MAVEN spacecraft has completed the Periapsis Lowering Maneuvers necessary to place it into its 4.5 hour elliptical (150 km by 6,200 km) science mapping orbit around Mars.
Five times during #MAVEN’s one-year science mission it will make “deep dips” and descend to a periapsis altitude of 125 km (77.6 mi). At this altitude, #Mars‘ atmosphere is about 30 times more dense than at MAVEN’s science mapping periapsis of 150 km.
Many of the design features, algorithms, processes, and lessons-learned from previous Mars missions support MAVEN’s “deep dip” operations. One of these design features is MAVEN’s gull-wing solar panel design. The spacecraft’s solar panels are bent at a 20º angle.
As MAVEN travels through the upper atmosphere, the air pressure will increase to a point that could disrupt flight dynamics if the solar panels were flat. MAVEN’s bent solar panels shift the center of air pressure away from the spacecraft’s center of gravity, providing a self-stabilizing configuration for atmospheric flight. The effect is similar to the self-stabilization provided by feathers on a badminton shuttlecock.
Story courtesy of NASA’s MAVEN Mission to Mars FB page
With four burns completed since Mars Orbit Insertion on Sept. 21st, #MAVEN is now in a 4.6 hour orbit with a periapsis (closest approach to Mars) of ~175 km. In MAVEN’s current orbit, Mars’ atmospheric density is 0.04 kg/km³, which is just outside the required density corridor for the primary science phase.
The current orbit places the spacecraft into what is referred to as an “occultation zone” with respect to the arrival of Comet Siding Spring’s dust cloud on Sunday, Oct. 19th. Despite the unique science opportunity presented by the close encounter with an Oort Cloud comet, the safety of the spacecraft at #Mars remains top priority. All of NASA’s Mars orbiters have made adjustments to their orbits and spacecraft orientation to minimize any potential risk.
Two Periapsis Lowering Maneuvers (PLMs) planned over next two weeks will lower MAVEN’s periapsis to 150 km and place the spacecraft within the required science density corridor of 0.05 kg/km³ to 0.15 kg/km³.
Article and photo courtesy of the MAVEN Facebook page
NASA Reports MAVEN Mission’s First Look at Mars
The #MAVEN spacecraft has provided scientists their first look at a storm of energetic solar particles at #Mars, produced unprecedented ultraviolet images of the tenuous oxygen, hydrogen, and carbon coronas surrounding the Red Planet, and yielded a comprehensive map of highly-variable ozone in the atmosphere underlying the coronas.
The spacecraft, which entered Mars’ orbit Sept. 21, now is lowering its orbit and testing its instruments. MAVEN was launched to Mars in November 2013, to help solve the mystery of how the Red Planet lost most of its atmosphere.
Read the full story, here: http://bit.ly/1qoIAYp
Astronomers have found a pulsating, dead star beaming with the energy of about 10 million suns. This is the brightest pulsar—a dense stellar remnant left over from a supernova explosion—ever recorded. The discovery was made with NASA’s Nuclear Spectroscopic Telescope Array, or NuSTAR.
Read the Complete Story, provided by Caltech and NASA
The #MAVEN spacecraft has successfully completed the first two of six maneuvers of the transition phase that will conclude when the spacecraft begins collecting science data on November 8th.
The two burns have reduced the capture periapsis (closest point to Mars in the orbit) from 380 km to 204 km and the captured orbital period from 35 hours to 5.5 hours.
The first Periapsis Lower Maneuver was a maneuver of 8 m/sec. performed at apoapsis (farthest point from Mars in the orbit) with the purpose of reducing periapsis. The first Period Reduction Maneuver was designed with a delta-V (∆V) of 455 m/sec., about 37% as large as the #Mars Orbit Insertion maneuver, and reduced the orbital period most of way to the science requirement of 4.5 hours. A follow up PRM-2 using only the Trajectory Correction Maneuver engines is scheduled to be performed Oct 2nd to reduce the orbit period the remaining 1 hour.
The full timeline of MAVEN transition events can be found here: http://bit.ly/1u4vswK
Article and photo courtesy of the MAVEN Facebook page
NASA’s MAVEN spacecraft braked into orbit around Mars on Sunday after a 10-month interplanetary cruise from Earth, positioning the probe to help scientists learn how water and air were stripped from the red planet’s ancient atmosphere, killing off life that may have once existed there.
Read the full story.
We had a great turn out for the MAVEN Orbit Insertion maneuver here at the Space Sciences Lab. UC’s Vice Chancellor for Research Graham Fleming, Assistant Vice Chancellor Schlesinger and John Kaso from Shared Services were also in attendance. We honored in memorium Karen Meyer the MAVEN Educational group PM and former SSL Director Bob Lin, whose vision was at the forefront of the impetus for MAVEN. Karen’s family and Bob’s wife Lily were in attendance. There was also media coverage from KPIX 5 News.
There were talks and presentations by Dr. Janet Luhman, Dr David Mitchell and Dr. Shannon Curry and a slide presentation by Chris Scholz. NASA TV broadcast from Lochheed Martin in Colorado where mission ops folks were stationed. Everytime SSL or UC Berkeley was mentioned the room broke into cheers. At just over thirty three minutes into the deceleration Burn, Tim Priser of LMCO announced that MAVEN was in orbit and the room erupted into thunderous cheers and applause.