Electronic Strong Coupling of Gas-Phase Molecular Iodine
Abstract
Molecular polaritons, hybrid light-matter states formed from the strong coupling of molecular transitions and discrete photonic modes, are a compelling platform for optical control of chemical reactivity.
Despite the origins of the field of polaritonics in atomic gases, strong coupling of molecular gases remains underexplored.
The pristine, solvent-free gas-phase environment may prove ideal for gaining mechanistic understanding of molecular behavior under strong light-matter coupling.
In this work, we achieve electronic strong coupling of the B-X, $\nu_1$ = 0$\rightarrow$32, J = 53$\rightarrow$52 and B-X, $\nu_1$ = 0$\rightarrow$34, J = 103$\rightarrow$102 rovibronic transitions of gas-phase iodine (I$_2$) lying near 532.2 nm.
We access a range of coupling strengths and detuning conditions with fine control over molecular number density and cavity length stabilization.
This effort represents the first demonstration of electronic polaritons in a molecular gas and opens a new platform for polariton photochemistry and photophysics.
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