|
|
Progress and Prospect of Technologies Stimulating Space Environment for Biology Study |
CANG Huaixing |
Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, China |
|
|
Abstract: The study of space biology becomes significant and requires the advanced technologies for stimulating space environment considering the rare opportunity and the high costs of space experiments. In this article, the characteristics and applications of the existing technologies for stimulating the microgravity environment are systematically analyzed. Based on the research tendency of the coupling effects of multi-factors, laser trap is proposed to be the next generation technology for the simulation. This technology has the great advantages for manipulating cells without contact, manipulating intra-cell particles and fixing cell position, which is valuable for producing the good simulation effect. The well compatibility and complementation between the technologies of laser trap and the single ion radiation will be very useful for the study of coupling effects of the microgravity and radiation.
|
Received: 28 March 2013
|
|
|
|
|
[1] |
ZOU Shiwen;XIAO Kui;DONG Chaofang;DING Kangkang;LI Xiaogang. Corrosion Behavior and Control Methods of Microbiologically Influenced Corrosion of Space Station Environmental Control and Life Support System[J]. , 2013, 31(30): 61-66. |
[2] |
CANG Huaixing;ZHANG Heqiao;HAN Yi;LI Na;SHANG Guijun;NIE Rongxin;MA Jianhua. Protein Crystallization Experiments Aboard Shenzhou-8 Spaceship[J]. , 2012, 30(16): 20-25. |
[3] |
. Effects of a 115-kHz Intermediate Frequency Alternating Magnetic Field on the Reproductive System of Male Mice[J]. , 2010, 28(19): 81-85. |
[4] |
. Influence of Space Environment on Cells of Animals[J]. , 2007, 25(0702): 28-33. |
[5] |
;. Effects of Space Environment on the Gene Expression[J]. , 2007, 25(0702): 38-40. |
[6] |
. Progress on the Effect on Space Environment on Plant[J]. , 2007, 25(0701): 38-42. |
|
|
|
|