Quantum calculation of the second-order hyperpolarizability of chiral molecules in the "one-electron" model

F. Hache

doi:10.1021/jp105123m

Quantum calculation of the second-order hyperpolarizability of chiral molecules in the "one-electron" model

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Abstract

Quantum calculation of the hyperpolarizabilty tensor is carried out for chiral molecules displaying a "one-electron" chirality. Calculation is made possible by introducing a chiral perturbation term in the potential energy surface. We show that a one-electron chiral molecule is intrinsically nonlinear and diplays a nonzero electric chiral hyperpolarizability. Existence of magnetic contributions is discussed, and it is shown that higherorder perturbation terms are necessary to introduce such magnetic effects in the second-order hyperpolarizability.

Original language	English
Pages (from-to)	10277-10286
Number of pages	10
Journal	Journal of Physical Chemistry A
Volume	114
Issue number	37
DOIs	https://doi.org/10.1021/jp105123m
Publication status	Published - 23 Sept 2010

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title = "Quantum calculation of the second-order hyperpolarizability of chiral molecules in the {"}one-electron{"} model",

abstract = "Quantum calculation of the hyperpolarizabilty tensor is carried out for chiral molecules displaying a {"}one-electron{"} chirality. Calculation is made possible by introducing a chiral perturbation term in the potential energy surface. We show that a one-electron chiral molecule is intrinsically nonlinear and diplays a nonzero electric chiral hyperpolarizability. Existence of magnetic contributions is discussed, and it is shown that higherorder perturbation terms are necessary to introduce such magnetic effects in the second-order hyperpolarizability.",

author = "F. Hache",

year = "2010",

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AU - Hache, F.

PY - 2010/9/23

Y1 - 2010/9/23

N2 - Quantum calculation of the hyperpolarizabilty tensor is carried out for chiral molecules displaying a "one-electron" chirality. Calculation is made possible by introducing a chiral perturbation term in the potential energy surface. We show that a one-electron chiral molecule is intrinsically nonlinear and diplays a nonzero electric chiral hyperpolarizability. Existence of magnetic contributions is discussed, and it is shown that higherorder perturbation terms are necessary to introduce such magnetic effects in the second-order hyperpolarizability.

AB - Quantum calculation of the hyperpolarizabilty tensor is carried out for chiral molecules displaying a "one-electron" chirality. Calculation is made possible by introducing a chiral perturbation term in the potential energy surface. We show that a one-electron chiral molecule is intrinsically nonlinear and diplays a nonzero electric chiral hyperpolarizability. Existence of magnetic contributions is discussed, and it is shown that higherorder perturbation terms are necessary to introduce such magnetic effects in the second-order hyperpolarizability.

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DO - 10.1021/jp105123m

M3 - Article

C2 - 20722438

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SN - 1089-5639

VL - 114

SP - 10277

EP - 10286

JO - Journal of Physical Chemistry A

JF - Journal of Physical Chemistry A

IS - 37

ER -

Quantum calculation of the second-order hyperpolarizability of chiral molecules in the "one-electron" model

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