Vacuum-ultraviolet frequency-modulation spectroscopy

Abstract

Frequency-modulation (FM) spectroscopy has been extended to the vacuum-ultraviolet (VUV) range of the electromagnetic spectrum. Coherent VUV laser radiation is produced by resonance-enhanced sum-frequency mixing (VUV=2UV+2) in Kr and Xe using two near-Fourier-transform-limited laser pulses of frequencies UV and 2. Sidebands generated in the output of the second laser (2) using an electro-optical modulator operating at the frequency mod are directly transfered to the VUV and used to record FM spectra. Demodulation is demonstrated both at mod and 2mod. The main advantages of the method are that its sensitivity is not reduced by pulse-to-pulse fluctuations of the VUV laser intensity, compared to VUV absorption spectroscopy is its background-free nature, the fact that its implementation using table-top laser equipment is straightforward and that it can be used to record VUV absorption spectra of cold samples in skimmed supersonic beams simultaneously with laser-induced-fluorescence and photoionization spectra. To illustrate these advantages we present VUV FM spectra of Ar, Kr, and N2 in selected regions between 105000cm-1 and 122000cm-1.