The Space Sciences and Application Projects in Space Laboratory
doi: 10.11728/cjss2016.05.626 cstr: 32142.14.cjss2016.05.626
The Space Sciences and Application Projects in Space Laboratory
-
摘要: Space sciences and application projects arranged in Tiangong-2 space laboratory and Tianzhou-1 cargo ship have been described in detail, covering research areas of the fundamental physics, space astronomy, microgravity fluid physics and materials science, space life science, and earth science. These experiments and researches will hopefully produce great scientific results and social benefits in several fields, including:universe evolution, quantum communication, material development, global climate change and earth environment, etc.Abstract: Space sciences and application projects arranged in Tiangong-2 space laboratory and Tianzhou-1 cargo ship have been described in detail, covering research areas of the fundamental physics, space astronomy, microgravity fluid physics and materials science, space life science, and earth science. These experiments and researches will hopefully produce great scientific results and social benefits in several fields, including:universe evolution, quantum communication, material development, global climate change and earth environment, etc.
-
Key words:
- Space sciences and application /
- Tiangong-2 /
- Tianzhou-1 /
- Space laboratory /
- Microgravity
-
[1] QU Qiuzhi, WANG Bin, LU Desheng, et al. Integrated design of a compact magneto-optical trap for space applications[J]. Chin. Opt. Lett., 2015, 13(6):061405 [2] REN Wei, XIANG Jingfeng, ZHANG Yuantao, et al. Development of an ultra-high vacuum system for space cold atom Clock [J]. Vacuum, 2015, 116(6):54 [3] WANG J Y, YANG B, LIAO S K, et al. Direct and fullscale experimental verifications towards ground satellite quantum key distribution [J]. Nat. Photon., 2013, 7:387-393 [4] NAUERTH S, MOLL F, RAU M, et al. Air-to-ground quantum communication [J]. Nat. Photon., 2013, 7:382-386 [5] GUAN Shengguo, TU Liangcheng, ZHOU Zebing, LUO Jun. Proposal for testing non-Newtonian gravitational force in space [J]. J. Jpn. Soc. Microgr. Appl., 2007, 24:86-90 [6] TU H B, BAI Y Z, ZHOU Z B, et al. Performance measurements of an inertial sensor with a two-stage controlled torsion pendulum [J]. Class. Quantum. Grav., 2010, 27:205016 [7] ORSI S, HASS D, HAJDAS W, et al. Response of the Compton polarimeter POLAR to polarized hard Xrays[J]. Nucl. Instr. Meth. Phys. Res.:A, 2011, 648:139-154 [8] XIAO H L, HAJDAS W, BAO T W, et al. Calibration of Gamma-ray Burst Polarimeter POLAR[J]. Physics, 2015, 63(3):625-638 [9] HU W R, TANG Z M. Influence of liquid bridge volume on the floating zone convection [J]. Cryst. Res. Technol., 2003, 38:627-634 [10] ZHU P, DUAN L, KANG Q. Transition to chaos in thermocapillary convection [J]. Int. J. Heat Mass Trans., 2013, 57:457-464 [11] LIU Qiusheng, NIE Yuxing, FENG Meifu, HU Wenrui. Progress on microgravity sciences in China [J]. Chin. J. Space Sci., 2006, 26 (Supp.):150-159 [12] CHEN X, ZHU Z Q, LIU Q S, WANG X W. Thermodynamic behaviors of macroscopic liquid droplets evaporation from heated substrates [J]. Microgravity Sci. Technol., 2015, 27:353-360 [13] LIU Y, AI F, FENG C, YU Q, TAN X C. A new kind of multi-task materials processing facility for space applications[J]. Space Technol., 2006, 26:124-126 [14] LIU Y, AI F, ZHOU Y, PAN X, JIN W Q. A Prototype of multi-zone materials processing facility in space [J]. J. Japan Soc. Microgravity Appl., 2007, 24(1):23-25 [15] ZHANG Y, ZHANG X, MENG X, et al. An interferometric imaging altimeter applied for both ocean and land observation [C]//IGARSS 2007. Barcelona:IEEE, 2007:3821-3824 [16] ZHANG Yunhua, ZHAI Wenshuai, GU Xiang, et al. Experimental demonstration for the attitude measurement capability of interferometric radar altimeter [C]//15th International Radar Symposium, IRS-2014 Conferences Proceedings. Gdansk, Poland:IEEE, 2014:424-427 [17] YU X Y, WANG S R, HUANG Y, LIN G Y. Development of ultraviolet annular imager for Earth limb and nadir sounding simultaneously [J]. Acta Opt. Sin., 2012, 32(12):1211004 [18] XUE Q S, LIN G Y, CHEN W. Development of hyperspectral imager for atmospheric limb sounding [J]. Chin. J. Sci. Instr., 2012, 33(5):1167-1173 -
-
计量
- 文章访问数: 1694
- HTML全文浏览量: 255
- PDF下载量: 897
-
被引次数:
0(来源:Crossref)
0(来源:其他)
下载:
