Absolute frequency measurement of molecular iodine hyperfine transitions at 647 nm

Yao-Chin Huang; Yu-Chan Guan; Te-Hwei Suen; Jow-Tsong Shy; Li-Bang Wang

doi:10.1364/AO.57.002102

Absolute frequency measurement of molecular iodine hyperfine transitions at 647 nm

Appl Opt. 2018 Mar 20;57(9):2102-2106. doi: 10.1364/AO.57.002102.

Authors

Yao-Chin Huang, Yu-Chan Guan, Te-Hwei Suen, Jow-Tsong Shy, Li-Bang Wang

PMID: 29603999
DOI: 10.1364/AO.57.002102

Abstract

We report absolute frequency measurements of molecular iodine P(46) 5-4 a₁, a₁₀, and a₁₅ hyperfine transitions at 647 nm with a fiber-based frequency comb. The light source is based on a Littrow-type external-cavity diode laser. A frequency stability of 5×10^-12 at a 200 s integration time is achieved when the light source is stabilized to the P(46) 5-4 a₁₅ line. The pressure shift is determined to be -8.3(7) kHz/Pa. Our determination of the line centers reached a precision of 21 kHz. The light source can serve as a reference laser for lithium spectroscopy (2S→3P).