Rosetta Mission Status Update. Hal Weaver (JHU/APL) CoI on Rosetta-Alice UV Spectrograph (with help from Art Chmielewski, JPL)

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Transcription:

Rosetta Mission Status Update Hal Weaver (JHU/APL) CoI on Rosetta-Alice UV Spectrograph (with help from Art Chmielewski, JPL)

Wake Up Rosetta, Please! Hibernating since June 2011 Wakeup by timer on: 2014-Jan-20 10:00 UTC Stay Tuned! 2014 Jan 08 Rosetta Update for SBAG 2

Rosetta Mission is Ambitious The Rosetta mission will achieve many historic landmarks: Rosetta will be the first spacecraft to orbit a comet's nucleus. It will be the first spacecraft to fly alongside a comet as it heads towards the inner Solar System. Rosetta will be the first spacecraft to examine from close proximity how a frozen comet is transformed by the warmth of the Sun. Shortly after its arrival at the comet, the Rosetta Orbiter will dispatch a robotic Lander for the first controlled touchdown on a comet nucleus. 2014 Jan 08 Rosetta Update for SBAG 3

Rosetta Mission and Milestones Mission to rendezvous with Comet 67P/ Churyumov-Gerasimenko where it will study the nucleus of the comet and its environment for nearly two years, and land a probe on its surface. Launch date: 2 March 2004 Journey milestones: 1st Earth gravity assist: 4 March 2005 Mars gravity assist: 25 February 2007 2nd Earth gravity assist: 13 November 2007 Asteroid Steins flyby: 5 September 2008 3rd Earth gravity assist: 13 November 2009 Asteroid Lutetia flyby: 10 July 2010 Enter deep space hibernation: 8 June 2011 Exit deep space hibernation: 20 January 2014 Major comet rendezvous maneuver: May 2014 Arrive at comet: August 2014 Philae lander delivery: November 2014 Closest approach to Sun: 13 August 2015 Prime Mission end: 31 December 2015 You are here now 2014 Jan 08 Rosetta Update for SBAG 4

Rosetta s Journey 2014 Jan 08 Rosetta Update for SBAG 5

Rosetta Orbiter : 11 Instruments ALICE Ultraviolet Imaging Spectrometer CONSERT Comet Nucleus Sounding COSIMA Cometary Secondary Ion Mass Analyser GIADA Grain Impact Analyser and Dust Accumulator MIDAS Micro-Imaging Analysis System MIRO Microwave Instrument for the Rosetta Orbiter OSIRIS Rosetta Orbiter Imaging System ROSINA Rosetta Orbiter Spectrometer for Ion and Neutral Analysis RPC Rosetta Plasma Consortium RSI Radio Science Investigation VIRTIS Visible and Infrared Mapping Spectrometer 2014 Jan 08 Rosetta Update for SBAG 6

Rosetta Lander (Philae): 10 Instruments APXS Alpha Proton X-ray Spectrometer ÇIVA / ROLIS Rosetta Lander Imaging System CONSERT Comet Nucleus Sounding COSAC Cometary Sampling and Composition experiment MODULUS PTOLEMY Evolved Gas Analyzer MUPUS Multi-Purpose Sensor for Surface and Subsurface Science ROMAP RoLand Magnetometer and Plasma Monitor SD2 Sample and Distribution Device SESAME Surface Electrical and Acoustic Monitoring Experiment, Dust Impact Monitor 2014 Jan 08 Rosetta Update for SBAG 7

Rosetta Payload: US Contributions Orbiter Teams 1. *ALICE - UV spectrometer 2. CONSERT tomography/radio sounding 3. COSIMA chemistry 4. GIADA dust analysis 5. *IES - ion and electron sensor 6. IPA plasma analyzer 7. MAP magnetometer 8. MIDAS atomic force microscope (dust particles) 9. MIP magnetic impedance probe 10. *MIRO - microwave spectrometer / radiometer 11. LAP Langmuir probe 12. OSIRIS camera 13. *ROSINA mass spectrometer 14. RSI radio science 15. VIRTIS IR spectrometer Lander Teams 16. APXS X-ray spectrometer, similar to that of Mars Pathfinder 17. CIVA -lander visible - IR camera (omnidirectional) 18. COSAC lander mass spectrometer 19. MODULUS gas analyzer 20. MUPUS probe 21. ROLIS lander descent camera 22. ROMAP lander magnetometer/material magnetism 23. SESAME seismic data 24. CONSERT (2) tomography/radio sounding Legend: US hardware contribution US investigation contribution 2014 Jan 08 Rosetta Update for SBAG 8

US Hardware Contributions ALICE PI: Alan Stern (SWRI) IES PI: Jim Burch (SWRI) MIRO PI: Sam Gulkis (JPL) ROSINA Dual Focus Mass Spectrometer (DFMS) Electronics PI: Katrin Altwegg (UBern) US lead co-i: Stephen Fuselier (SWRI) 2014 Jan 08 Rosetta Update for SBAG 9

The US Contributions to Rosetta 3 + instruments 3 PIs, PS, IDS 50 CoIs DSN 70 m tracks and 34 m support ASPEN scheduling software for science observations SPICE support Comet modeling Shadow navigation for flight dynamics verification PDS Archiving (SBN) Scientists contribute to 67P observing campaign 2014 Jan 08 Rosetta Update for SBAG 10

Recent/Current Rosetta Activities Major Operations Reviews in fall 2013 Preparing for wakeup in 12 days! Spacecraft and instrument checkouts during Jan-May 2014 Finalizing plans for rendezvous and characterization of comet Characterize physical properties of nucleus (size, shape, rotation, surface morphology, ) Measure comet activity levels (High, Medium, Low?) Landing site selection and characterization Intensive planning of activities for Escort Phase (Nov 2014-EOM) Long term (LTP; 1 yr), Medium term (MTP; 1 month), Short term (STP; 1 week) plans worked by 4 Discipline Groups and SOWG 2014 Jan 08 Rosetta Update for SBAG 11

Potential Rosetta Concerns Wake up Propulsion system leak If pressure lower than expected, could affect ops and mission duration Reaction wheel anomalies Loss of wheel(s) would affect ops and scope of science activities Observation planning Late development of planning tools and interactions with Flight Dynamics, system robustness, and conflict resolution (i.e., different instruments want different strategies) constrain science 2014 Jan 08 Rosetta Update for SBAG 12

Landing Site Selection Milestones Delivery Dress Rehearsal (11 days) Global Mapping (35 days) Close Observation (28 days) FFS (5 days) 1 2 3 4 Delivery Preparation (11 days) Separation 1. Selection of landing site regions Limited selection criteria: crude comet geometry and illumination profile Input to flight dynamics analyses 2. Selection of candidate landing sites Preliminary but global analysis of the comet characteristics A list of landing sites will be established for a more precise examination during the following Close Observation phase 3. Classification of the best landing sites Precise analysis of the candidate landing sites taking into account many scientific and technical aspects Best 5 landing sites identified and ranked 4. Final selection of the landing site An evaluation taking into account the latest operational conditions and constraints will drive the final landing site selection 13 2014 Jan 08

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