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Takashi Miyachi Masayuki Fujii Nobuyuki Hasebe Osamu Okudaira Seiji Takechi Toshiyuki Onishi Shigeyuki Minami Masanori Kobayashi Takeo Iwai Eberhard Grün Ralf Srama Nagaya Okada 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2011
The responses of a piezoelectric lead zirconate titanate (PZT) element to hypervelocity collisions were experimentally studied. In this study, the particles of masses ranging from 0.3 to 10 fg were made to collide with PZT at velocities between 20 and 96 km/s. The amplitude and the corresponding rise time of the single-pulse output signals that were produced in the piezoelectric PZT element were measured to determine the possible collision states. The results revealed an apparently multimodal output; three classes were assumed to be involved in the pulse formation mechanism. The amplitude and rise time were sensitive to the collision velocity. The multimodal behavior implied that the PZT-based cosmic dust detectors should be calibrated according to the class they belong to. 相似文献
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Akira Fujiwara Naomi Onose Masato Setoh Akiko M. Nakamura Kensuke Hiraoka Sunao Hasegawa Kyoko Okudaira 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2014
The cylindrical column of brittle material processed from soil and rock is a fundamental component of architectures on the surface of solid bodies in the solar system. One of the most hazardous events for the structure is damaging by hypervelocity impacts by meteoroids and debris. In such a background, cylindrical columns made of plaster of Paris and glass-bead-sintered ceramic were impacted by spherical projectiles of nylon, glass, and steel at velocity of about 1–4.5 km/s. Measured crater radii, depth, and excavated mass expressed by a function of the cylinder radius are similar irrespective of the target material, if those parameters are normalized by appropriate parameters of the crater produced on the flat-surface target. The empirical scaling relations of the normalized crater radii and depth are provided. Using them, crater dimensions and excavated mass of crater on cylindrical surface of any radius can be predicted from the existing knowledge of those for flat surface. Recommendation for the minimum diameter of a cylinder so as to resist against a given impact is provided. 相似文献
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S. Kobayashi N. Hasebe E. Shibamura O. Okudaira M. Kobayashi N. Yamashita Y. Karouji M. Hareyama K. Hayatsu C. d’Uston S. Maurice O. Gasnault O. Forni B. Diez R. C. Reedy K. J. Kim 《Space Science Reviews》2010,154(1-4):193-218
The Kaguya gamma-ray spectrometer (KGRS) has great potential to precisely determine the absolute abundances of natural radioactive elements K, Th and U on the lunar surface because of its excellent spectroscopic performance. In order to achieve the best performance of the KGRS, it is important to know the spatial response function (SRF) that describes the directional sensitivity of the KGRS. The SRF is derived by a series of Monte Carlo simulations of gamma-ray transport in the sensor of the KGRS using the full-fledged simulation model of the KGRS, and is studied in detail. In this paper, the method for deriving absolute abundance of natural radioactive elements based on the SRF is described for the analysis of KGRS data, which is also applicable to any gamma-ray remote sensings. In the preliminary analysis of KGRS data, we determined the absolute abundances of K and Th on the lunar surface without using any previous knowledge of chemical information gained from Apollo samples, lunar meteorites and/or previous lunar remote sensings. The results are compared with the previous measurements and the difference and the correspondence are discussed. Future detailed analysis of KGRS data will provide new and more precise maps of K, Th and U on the lunar surface. 相似文献
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T. Miyachi M. Fujii N. Hasebe G. Kuraza K. Mori O. Okudaira N. Yamashita S. Sasaki T. Iwai K. Nogami H. Matsumoto H. Ohashi H. Shibata S. Minami S. Takechi T. Onishi E. Grün R. Srama N. Okada 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008,41(7):1147-1151
The detector characteristics of a pentagonal element were studied by colliding it with hypervelocity micro-particles. A charge-sensitive amplifier was developed for the element of its capacitance ∼10 nF. The output amplitudes were expressed as a linear function of the momentum at collision. Empirical formulas obtained from on-ground experiments could be used for the calibration of the detector. The pentagonal element was potential to measure the momentum during collision from the output amplitude. A set of electrodes on the surface was used to confirm the measurement of the coordinates at collision. A possible application of this pentagonal element on a real-time dust detector was discussed. 相似文献
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N. Hasebe N. Yamashita O. Okudaira S. Kobayashi H. Yamamoto T. Ishizaki K. Hirano K. Sakurai T. Miyachi M. Miyajima M. Fujii M.-N. Kobayashi T. Takashima E. Shibamura O. Gasnault S. Maurice C. d’Uston R. Reedy M. Grande 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008
The high precision gamma-ray spectrometer (GRS) is scheduled to be launched on the lunar polar orbiter of the SELENE mission in 2007. The GRS consists of a large Ge crystal as a main detector and massive bismuth germanate crystals as an anticoincidence detector. A Stirling cryocooler was adopted in cooling the Ge detector. The flight model of SELENE GRS has been completed and an energy resolution of 3.0 keV (FWHM) at 1.332 MeV has been achieved. The spectrometer aims to observe nuclear line gamma rays emitted from the lunar surface in a wide energy range from 100 keV to 12 MeV for one year and more to obtain chemical composition on the entire lunar surface. The gamma-ray data enable us to study lunar geoscience problems including crust and mantle composition, and volatile reservoirs at polar regions. 相似文献
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