130Te2 spectroscopic reference for neutral Ti lines at 391 nm and 498 nm

Abstract

We report on the use of ditellurium (130Te2) as a frequency reference for laser locking at 391 nm and 498 nm optical wavelengths, which are of interest in titanium (Ti) laser-cooling experiments. In the ultraviolet region near the optical wavelength of 391 nm, 36 previously unobserved transitions were found using laser absorption spectroscopy in a 256 GHz range. Based on the established molecular structure of 130Te2, we attribute these lines to the 0u+→ 0g+ subsystem of the 3u-→\ 3g- transition with possible vibrational transitions of =(28,27,26,25,24)→ 0 and (27,26)→ 1. We measure the frequencies of these lines, and also of lines near 498 nm wavelength, and subsequently stabilize lasers at wavelengths of 391 nm (and 498 nm) to 60 MHz (50 MHz) wide resonances in 130Te2, near the optical-pumping (laser-cooling) transitions in 48Ti. We observe robust laser frequency locks, with Allan deviations of 4.9× 10-10 (3.6× 10-11) at 10 s of averaging time for the 391 nm (498 nm) wavelength lasers.