the third moscow solar system symposium 8 – 12 october 2012, moscow, russia first data from dan...
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The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
First Data from DAN Instrument onboard MSL Curiosity Rover
M. Litvak and I. Mitrofanov
Russian Space Research Institute (IKI RAN)
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Dynamic Albedo of Neutrons (DAN)
DAN DE:
Two detectors of neutrons with and without enclosure of Cd for detection of thermal and epithermal neutrons.
DAN PNG:
Pulsing Neutron Generator (DAN/PNG), which emits pulses of 107
neutrons at 14 MeV with duration of 1-2 microseconds
The Dynamic Albedo of Neutrons (DAN) is an active/passive neutron spectrometer that measures the abundance and depth distribution of H- and OH-bearing materials (e.g., adsorbed water, hydrated minerals) in a shallow layer (~1 m) of Mars' subsurface along the path of the MSL rover.
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
DAN Accommodation on the MSL
DAN DE DAN PNG
HEND Workshop 2012 June 18-22, 2012
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Large albedo flux ofthermal neutrons Small albedo flux of
thermal neutrons
DAN Science
HEND Workshop 2012 June 18-22, 2012
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Neutron pulse: 14 MeV neutrons
Thermal neutrons from soil: position, width, amplitude
depend on the soil composition and especially on
H depth distribution
Microseconds after neutron pulse
Schematic of DAN active
measurements
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
CETN (proportional counter in Cd enclosure)
CTN (bare proportional counter) Thermal neutrons
Example of DAN measurements performed during ground field test
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Example of DAN measurements from the field tests
Soil with different water content
DAN measurements
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Active monitoring (water accuracy about 1 wt%, layering) (1, 3)
Active analysis (water accuracy about 0.1 wt%, layering) (2, 4)
Passive monitoring (water accuracy about few wt%, radiation environment) (5)
5Reconnaissance for
water anomaly
Analysis of selected sites
Analysis of selected sites
DAN operations on martian surface
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
DAN Instrument Status
• More than 60 sols on the surface, Both DAN/DE and DAN/PNG are healthy.
• No major issues from start of surface observations, successful execution of all DAN sequences onboard MSL.
• Cruise to Mars, March 2012 = First measurements onboard in Space (passive mode for 1 hour)
• Sol 03 = First test of Passive mode on Mars surface• Sol 11 = First test of Active mode on Mars surface (DAN/PNG emit
neutrons!)• Sol 14 = First night measurements in active mode• Sol 38 = First measurements during drive in Passive mode• Sol 41 = First measurements during drive in Active mode
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Gamma SensorGamma Sensor
HENDHEND
2001 Mars Odyssey2001 Mars Odyssey
NSNS
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Example of of DAN Passive measurements on the Martian surface: The counting rates in CETN (in cadmium enclosure) and in CTN (without cadmium enclosure) are shown as measured during ~ 20 min drive of MSL rover for a distance about 30 m. The visible variations of counting rate are significant and may indicate variations of soil composition during the drive (H-content, or presence of absorbing elements like Fe or Cl)
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Example of of DAN Active measurements on the Martian surface: Die-away curves measured as time profiles of counting rate in each DAN detector after PNG neutron pulse at two different locations. Difference between them indicate difference in soil composition.
CETN – DAN/DE detector in Cadmium enclosure sensitive to epithermal neutrons
Two different locations are shown by red and blue colors
CTN – DAN/DE detector without Cadmium enclosure sensitive both to epithermal and thermal neutrons
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Conclusions According to data from HEND we have estimated average water distribution at the
area around the landing place. The average water content in the area of the MSL landing is about 5-6 % but observations are made from the orbit (~450 km) and averaged across very huge surface area (~300 x 300 km). So we need ground truth from DAN on the surface!
We successfully started science operations with DAN instrument onboard MSL rover Curiosity. DAN successfully passed all surface aliveness tests and is ready for measurements both in passive and active mode (including short stops during rover driving).
First DAN measurements have shown high sensitivity both in passive and active modes. DAN has observed significant variability of the measured signal from one rover’s location to another one. It strongly indicates variations of soil composition along the rover’s drive.
Preliminary estimations have shown that variations of the water in the vicinity of landing site may be as large as 1-2%. Now we are in process to complete the procedure which will provide fast evaluation of absolute values of H abundance along the rover’s path.
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Annex A
DAN/DESpecifications
The Third Moscow Solar System Symposium
8 – 12 October 2012, Moscow, Russia
Annex B
DAN/PNGSpecifications