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Precision Measurement of Vibrational Quanta in Tritium Hydride

Frank M. J. Cozijn, Meissa L. Diouf, W. Ubachs, Valentin Hermann, Magnus Schlösser

2024Physical Review Letters12 citationsDOI

Abstract

Saturated absorption measurements of transitions in the (2-0) band of radioactive tritium hydride are performed with the ultrasensitive noise-immune cavity-enhanced optical-heterodyne molecular spectroscopy intracavity absorption technique in the range 1460-1510 nm. The hyperfine structure of rovibrational transitions of tritium hydride, in contrast to that of hydrogen deuteride, exhibits a single isolated hyperfine component, allowing for the accurate determination of hyperfineless rovibrational transition frequencies, resulting in R(0)=203 396 426 692(22) kHz and R(1)=205 380 033 644(21) kHz. This corresponds to an accuracy 3 orders of magnitude better than previous measurements in tritiated hydrogen molecules. Observation of an isolated component in P(1) with reversed signal amplitude contradicts models for line shapes in hydrogen deuteride based on crossover resonances.

Topics & Concepts

Rotational–vibrational spectroscopyHyperfine structureHydrideAtomic physicsHydrogenMaterials scienceSpectroscopyAbsorption (acoustics)Analytical Chemistry (journal)PhysicsChemistryExcited stateQuantum mechanicsChromatographyComposite materialAtomic and Molecular PhysicsAdvanced Chemical Physics StudiesCold Atom Physics and Bose-Einstein Condensates
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