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S.V. Vadawale P. Sreekumar Y.B. Acharya M. Shanmugam D. Banerjee J.N. Goswami N. Bhandari C.N. Umapathy M.R. Sharma A. Tyagi M. Bug M. Sudhakar L. Abraham 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2014
The High Energy X-ray spectrometer (HEX) on Chandrayaan-1 was designed to study the photon emission in the range of 30–270 keV from naturally occurring radioactive decay of 238U and 232Th series nuclides from the lunar surface. The primary objective of HEX was to study the transport of volatiles on the lunar surface using radon as a tracer and mapping the 46.5 keV line from 210Pb, a decay product of 222Rn. HEX was tested for two days during the commissioning phase of Chandrayaan-1 and performance of all sub systems was found to be as expected. HEX started collecting science data during the first non-prime imaging season (February–April, 2009) of Chandrayaan-1. Certain anomalies persisted in this data set and the early curtailment of Chandrayaan-1 mission in August, 2009, did not allow any further operation of HEX. Despite these issues, HEX provided the first data set for 30–270 keV continuum emission, averaged over a significant portion of the lunar surface, including the polar region. 相似文献