High Resolution FTS in Astronomy at 7 to 15 Microns

D. Jennings
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Abstract

Infrared molecular and atomic lines in planets, stars, and dust clouds can only be resolved using the highest available spectral resolution. The Fourier transform spectrometer is presently the only type of spectrometer capable of resolving powers near 105 which can operate at arbitrary wavelengths in the infrared. However, because noise in a spectrum increases with resolution, working at high resolution requires maximum sensitivity. In the thermal infrared, radiation from the sky and warm optics is the dominant source of noise in a spectrum. In order to achieve 105 resolving power on even the brightest sources in the mid-infrared, special techniques must be used to minimize background radiation.
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7至15微米的天文高分辨率FTS
行星、恒星和尘埃云中的红外分子和原子线只能用最高的可用光谱分辨率来分辨。傅里叶变换光谱仪是目前唯一一种能够在任意波长的红外光谱中工作的分辨率接近105的光谱仪。然而,由于频谱中的噪声随着分辨率的增加而增加,因此在高分辨率下工作需要最大的灵敏度。在热红外中,来自天空和热光学的辐射是光谱中主要的噪声源。为了在中红外线最亮的光源上达到105的分辨能力,必须使用特殊的技术来减少背景辐射。
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