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Paper detail

Lie algebra for rotational subsystems of a driven asymmetric top

We present an analytical approach to construct the Lie algebra of finite-dimensional subsystems of the driven asymmetric top rotor. Each rotational level is degenerate due to the isotropy of space, and the degeneracy increases with rotational excitation. For a given rotational excitation, we determine the nested commutators between drift and drive Hamiltonians using a graph representation. We then generate the Lie algebra for subsystems with arbitrary rotational excitation using an inductive argument.

preprint2021arXivOpen access
Eugenio PozzoliMonika LeibscherMario SigalottiUgo BoscainChristiane P. Koch
quant-ph
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Eugenio PozzoliMonika LeibscherMario SigalottiUgo BoscainChristiane P. Koch

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