Numerical estimation of lunar X-ray emission for X-ray spectrometer onboard SELENE

被引:0
作者
Kazunori Ogawa
Tatsuaki Okada
Kei Shirai
Manabu Kato
机构
[1] Japan Aerospace Exploration Agency,Department of Planetary Science, Instutute of Space and Astronautical Science
[2] Tokyo Institute of Technology,Department of Earth and Planetary Sciences
来源
Earth, Planets and Space | 2008年 / 60卷
关键词
Lunar X-ray; numerical simulation; X-ray spectrometer; XRS; SELENE;
D O I
暂无
中图分类号
学科分类号
摘要
We conducted a numerical estimation of lunar X-ray spectra, which is applicable for lunar X-ray fluorescence observations using an X-ray spectrometer (XRS) onboard the SELENE orbiter, with an improved simulation model. We investigated the integration times of measurements for six elements (Mg, Al, Si, Ca, Ti, and Fe) to achieve signal-to-background ratio of over 10 under various solar conditions. The results of these calculations indicate that expected along-the-track spatial resolutions of a single orbital path for Mg, Al and Si will be <90 km and 20 km under normal and active Sun conditions, respectively. Ca, Ti and Fe will be also detectable with a spatial resolution of 20 km during the periods active solar flares over M1 class happen to occur.
引用
收藏
页码:283 / 292
页数:9
相关论文
共 50 条
[31]   Characterization of multichannel SDD X-ray spectrometer with ASIC readout [J].
Singh, Nishant ;
Shanmugam, M. ;
Patel, Arpit ;
Kumar, Sushil ;
Painkra, Deepak K. ;
Ladiya, Tinkal ;
Vadawale, S. .
ADVANCES IN SPACE RESEARCH, 2025, 75 (07) :5630-5639
[32]   Tunable X-Ray SASE FEL numerical simulation [J].
School of Information Science and Technology, Zhejiang Sci.-Tech. University, Hangzhou 310018, China ;
不详 .
Gu, X.-W., 2013, Univ. of Electronic Science and Technology of China (42) :875-879+915
[33]   ON THE ORIGIN OF HIGHLY IONIZED X-RAY ABSORBERS DETECTED IN THE GALACTIC X-RAY BINARIES [J].
Luo, Yang ;
Fang, Taotao .
ASTROPHYSICAL JOURNAL, 2014, 780 (02)
[34]   Data Acquisition and Analysis for a TES-Based X-Ray Spectrometer [J].
Jingkai Xia ;
Shuo Zhang ;
Jinping Yang ;
Yanru Song ;
Zhi Liu .
Journal of Low Temperature Physics, 2022, 209 :1017-1023
[35]   Data Acquisition and Analysis for a TES-Based X-Ray Spectrometer [J].
Xia, Jingkai ;
Zhang, Shuo ;
Yang, Jinping ;
Song, Yanru ;
Liu, Zhi .
JOURNAL OF LOW TEMPERATURE PHYSICS, 2022, 209 (5-6) :1017-1023
[36]   Design of an elliptical crystal spectrometer for diagnosing pulsed plasma x-ray [J].
Zhong, XX ;
Xiong, XC ;
Xiao, SL ;
Chen, Y ;
Qian, JY ;
Gao, J .
NOVEL OPTICAL SYSTEMS DESIGN AND OPTIMIZATION VII, 2004, 5524 :330-336
[37]   Research on data compression of the X-Ray spectrometer for Chang'E mission [J].
Ma R.-M. ;
Wang H.-Y. .
Yuhang Xuebao/Journal of Astronautics, 2011, 32 (01) :104-108
[38]   High-resolution x-ray spectroscopy with the EBIT Calorimeter Spectrometer [J].
Porter, F. Scott ;
Adams, Joseph S. ;
Beiersdorfer, Peter ;
Brown, Gregory V. ;
Clementson, Joel ;
Frankel, Miriam ;
Kahn, Steven M. ;
Kelley, Richard L. ;
Kilbourne, Caroline A. .
LOW TEMPERATURE DETECTORS LTD 13, 2009, 1185 :454-+
[39]   The high precision gamma-ray spectrometer for lunar polar orbiter SELENE [J].
Hasebe, N. ;
Yamashita, N. ;
Okudaira, O. ;
Kobayashi, S. ;
Yamamoto, H. ;
Ishizaki, T. ;
Hirano, K. ;
Sakurai, K. ;
Miyachi, T. ;
Miyajima, M. ;
Fujii, M. ;
Kobayashi, M. -N. ;
Takashima, T. ;
Shibamura, E. ;
Gasnault, O. ;
Maurice, S. ;
d'Uston, C. ;
Reedy, R. ;
Grande, M. .
ADVANCES IN SPACE RESEARCH, 2008, 42 (02) :323-330
[40]   Self-focusing x-ray spectrometer using mica as the dispersive element [J].
Xiong, XC ;
Zhong, XX ;
Xiao, SL ;
Hu, ZW ;
Qian, JY .
Optical Design and Testing II, Pts 1 and 2, 2005, 5638 :242-247
12345