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Molecular movie of ultrafast coherent rotational dynamics of OCS.

Evangelos T KaramatskosSebastian RaabeTerry MullinsAndrea TrabattoniPhilipp StammerGildas GoldsztejnRasmus R JohansenKarol DługołeckiHenrik StapelfeldtMarc J J VrakkingSebastian TrippelArnaud RouzéeJochen Küpper
Published in: Nature communications (2019)
Recording molecular movies on ultrafast timescales has been a longstanding goal for unravelling detailed information about molecular dynamics. Here we present the direct experimental recording of very-high-resolution and -fidelity molecular movies over more than one-and-a-half periods of the laser-induced rotational dynamics of carbonylsulfide (OCS) molecules. Utilising the combination of single quantum-state selection and an optimised two-pulse sequence to create a tailored rotational wavepacket, an unprecedented degree of field-free alignment, 〈cos2θ2D〉 = 0.96 (〈cos2θ〉 = 0.94) is achieved, exceeding the theoretical limit for single-pulse alignment. The very rich experimentally observed quantum dynamics is fully recovered by the angular probability distribution obtained from solutions of the time-dependent Schrödinger equation with parameters refined against the experiment. The populations and phases of rotational states in the retrieved time-dependent three-dimensional wavepacket rationalises the observed very high degree of alignment.
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