THE MID-INFRARED FREQUENCY STANDARD USING 14NmO(m=16,17,18) SPECTRAL LINES

doi:10.1088/1009-1963/9/3/006

Abstract

Abstract Based on the global analysis of all available and reliable data for isotopic species ¹⁴N^mO(m=16,17,18), the ¹⁴N¹⁶O rovibrational spectral lines are calculated with very high accuracy and completely agree with previous results. These lines with relative intensities can be achieved as an infrared frequency standard in the spectral range 1600-5600 cm^-1. The calculated rovibrational transitions of ¹⁴N^mO(m=17,18) have the same accuracy as that for ¹⁴N¹⁶O although their data are rare due to their small natural abundance.

Received: 15 August 1999
Accepted manuscript online:

PACS:	33.20.Ea	(Infrared spectra)
	33.20.Vq	(Vibration-rotation analysis)
	33.70.Fd	(Absolute and relative line and band intensities)

Fund: Project supported in part by the Natural Sciences Foundation of China (Grant No. 19874092)

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Liu Yu-yan (刘煜炎), Liu Hong-ping (刘红平), Guo Yuan-qing (郭远清), Lin Jie-li (林洁丽), Liu Xiao-yong (刘效庸), Huang Guang-ming (黄光明), Li Feng-yan (李奉延), Li Jin-rui (李津蕊) THE MID-INFRARED FREQUENCY STANDARD USING ¹⁴N^mO(m=16,17,18) SPECTRAL LINES 2000 Chinese Physics 9 184

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THE MID-INFRARED FREQUENCY STANDARD USING 14NmO(m=16,17,18) SPECTRAL LINES

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THE MID-INFRARED FREQUENCY STANDARD USING ¹⁴N^mO(m=16,17,18) SPECTRAL LINES