4 research outputs found
Spatial heterogeneity in the radiogenic activity of the lunar interior: Inferences from CHACE and LLRI on Chandrayaan-1
In the past, clues on the potential radiogenic activity of the lunar interior
have been obtained from the isotopic composition of noble gases like Argon.
Excess Argon (40) relative to Argon (36), as compared to the solar wind
composition, is generally ascribed to the radiogenic activity of the lunar
interior. Almost all the previous estimates were based on, 'on-the-spot'
measurements from the landing sites. Relative concentration of the isotopes of
40Ar and 36Ar along a meridian by the Chandra's Altitudinal Composition
Explorer (CHACE) experiment, on the Moon Impact Probe (MIP) of India's first
mission to Moon, has independently yielded clues on the possible spatial
heterogeneity in the radiogenic activity of the lunar interior in addition to
providing indicative 'antiquity' of the lunar surface along the ground track
over the near side of the moon. These results are shown to broadly corroborate
the independent topography measurements by the Lunar Laser Ranging Instrument
(LLRI) in the main orbiter Chandrayaan-1. The unique combination of these
experiments provided high spatial resolution data while indicating the possible
close linkages between the lunar interior and the lunar ambience
The sunlit lunar atmosphere: a comprehensive study by CHACE on the Moon Impact Probe of Chandrayaan-1
The altitudinal/latitudinal profile of the lunar atmospheric composition on the sunlit side was unraveled for the first time by the Chandra's Altitudinal Composition Explorer (CHACE) on the Moon Impact Probe, a standalone micro-satellite that impacted at the lunar south pole, as a part of the first Indian mission to Moon, Chandrayaan-1. Systematic measurements were carried out during the descent phase of the impactor with an altitude resolution of ~250 m and a latitudinal resolution of ~0.1° . The overall pressure on the dayside and the neutral composition in the mass range 1-100 amu have been measured by identifying 44 and 18 amu as the dominant constituents. Significant amounts of heavier (>50 amu) species also have been detected, the details of which are presented and discussed
'Direct' evidence for water (H<SUB>2</SUB>O) in the sunlit lunar ambience from CHACE on MIP of Chandrayaan I
Direct detection of water in its vapour phase in the tenuous lunar environment through in situ measurements carried out by
the Chandra's Altitudinal Composition Explorer (CHACE) payload, onboard the Moon Impact Probe (MIP) of Chandrayaan I
mission vindicates the presence of water on the surface of the moon in form of ice at higher lunar latitudes inferred from IR absorption
spectroscopy, (especially that of OH), by the Moon Mineralogy Mapper (M<SUP>3</SUP>) of Chandrayaan I. The quadrupole
mass spectrometer based payload, CHACE, sampled the lunar neutral atmosphere every 4 s with a broad latitudinal (˜40°
N to 90° S, with a resolution of ˜0.1° ) and altitudinal (from 98 km up to impact on the lunar surface with a
resolution of ˜0.25 km) coverage in the sunlit side of the moon for the first time. These two (CHACE and M<SUP>3</SUP>)
complementary experiments are shown to collectively provide unambiguous signatures for the distribution of water in solid and
gaseous phases in Earth's moon