用于5微米波长区域的超高分辨率光谱仪。
Ultrahigh-resolution spectrometer for the 5-microm wavelength region.
作者信息
Palm P, Hanke D, Urban W, Mürtz M
出版信息
Opt Lett. 2001 May 1;26(9):641-3. doi: 10.1364/ol.26.000641.
We present an ultrahigh-resolution saturation spectrometer based on a line-tunable carbon monoxide laser near 60 THz (lambda = 5 microm). A spectral resolution of 14 kHz (Dnu/nu = 2.3 x 10(-10)) for CO fundamental-band transitions was achieved, which improves on earlier results by one order of magnitude. A frequency-locking scheme using tunable microwave sidebands provides tunability and absolute frequency control of the CO laser on the kilohertz. Transit-time broadening and pressure broadening of the observed transitions are significantly reduced by use of expanded laser beams in a 24-m absorption cell at pressures down to 0.0 1Pa. The new spectrometer is suitable for the study of saturation line shapes and the development of a new generation of frequency standards in the 60-THz region.
我们展示了一种基于线可调谐一氧化碳激光器的超高分辨率饱和光谱仪,该激光器接近60太赫兹(波长 = 5微米)。对于一氧化碳基频带跃迁,实现了14千赫兹的光谱分辨率(Δν/ν = 2.3×10⁻¹⁰),比早期结果提高了一个数量级。一种使用可调谐微波边带的频率锁定方案实现了一氧化碳激光器在千赫兹量级上的可调谐性和绝对频率控制。在压力低至0.01帕的24米吸收池中使用扩展激光束,显著降低了观测跃迁的渡越时间展宽和压力展宽。这种新型光谱仪适用于研究饱和线形以及开发60太赫兹区域的新一代频率标准。
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