1.315 μm波长附近实际大气高分辨率吸收光谱
High-resolution absorption spectra of real atmosphere at 1.315m m
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摘要: 用窄线宽、脉冲可调谐光参量振荡器(OPO)作光源,使用光程长达1 097m的怀特池,采用单探测器分时复用的探测方法,首次在吸收池中精确测量了实际大气中1.315 μm波长附近高分辨率吸收光谱,实验验证了实际大气中水汽是该波段的主要吸收气体;得到了实际大气中吸收分子在氧碘激光波长(7 603.14cm-11)处的吸收截面为 (1.05±0.09)×10-24 cm2(标准大气条件下)以及在该波段主要吸收谱线的参数,包括吸收线的位置、线强度、压力加宽半宽度等。利用实测的线参数计算了在氧碘激光波长附近大气分子的吸收截面,发现吸收最小的波长分别位于7 603.31和7 603.93cm-1,其值约为(8.9±0.8)×10-25 cm2,比氧碘激光波长处的吸收截面约小15%。Abstract: The high-resolution absorption spectra of real atmosphere near the 1.315m m wavelength were recorded accurately using an experimental system. The system includes a tunable narrow-line-width pulsed OPO laser, a multipass absorption cell of the White-type with total optical length of 1097m, and a single time-division multiplexing fastresponse detector. The absorption cross-section of atmospheric absorption molecule at the 7 603.14cm- 1 wavelength of iodine laser was measured (1.05±0.09)×10- 24cm2 at the standard atmospheric condition. And the parameters of atmospheric absorption lines including the central position, strength and air-broadening halfwidth were also obtained around the wavelength of 1.315m m from the measured spectra of real atmosphere. It is found that the minimum absorp
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Key words:
- high-resolution spectroscopy /
- atmospheric absorption /
- opo /
- white cell
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