Mathematics – Logic
Scientific paper
Nov 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010spie.7849e..71z&link_type=abstract
Optical Design and Testing IV. Edited by Wang, Yongtian; Bentley, Julie; Du, Chunlei; Tatsuno, Kimio; Urbach, Hendrik P. Proc
Mathematics
Logic
Scientific paper
Since the absorption of ultraviolet radiation in the atmosphere is strong, it is difficult to image solar UV radiation using ground-based telescopes. While, the moon which has no atmosphere and has stability geological structure and low magnetic field, observing the sun on the moon is more suitable than observing the sun on the earth. This paper describes the design of lunar-based solar telescope which can image the sun in three wavelength: long-wave IR (8-12μm), visible (400-900nm) and UV(100-400nm). The telescope is mainly composed of two parts: reflective telescope and splitting system. This design effectively avoids the material restrictions of IR and UV imaging optical systems. The rationality of the optical system design of the common aperture multi-wavelength telescope was proved by comparing the results with the images get by single wavelength solar telescopes all over the world. Compared the images took under different weather, the importance of the proposition of lunar-based devise is proved. Combined the splitters and the spectral response range of detectors, the UV, visible and IR can be split and imaged by different detectors.
Huang Gang
Tang Yi
Zhang Lijun
Zhang Zhige
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