Transition between mechanisms of laser-induced field-free molecular orientation

I. Znakovskaya; M. Spanner; S. De; H. Li; D. Ray; P. Corkum; I. V. Litvinyuk; C. L. Cocke; M. F. Kling

doi:10.1103/PhysRevLett.112.113005

Transition between mechanisms of laser-induced field-free molecular orientation

I. Znakovskaya
, M. Spanner
, S. De
, H. Li
, D. Ray
, P. Corkum
, I. V. Litvinyuk
, C. L. Cocke
, M. F. Kling

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

The transition between two distinct mechanisms for the laser-induced field-free orientation of CO molecules is observed via measurements of orientation revival times and subsequent comparison to theoretical calculations. In the first mechanism, which we find responsible for the orientation of CO up to peak intensities of 8×1013 W/cm2, the molecules are impulsively oriented through the hyperpolarizability interaction. At higher intensities, asymmetric depletion through orientation-selective ionization is the dominant orienting mechanism. In addition to the clear identification of the two regimes of orientation, we propose that careful measurements of the onset of the orientation depletion mechanism as a function of the laser intensity will provide a relatively simple route to calibrating absolute rates of nonperturbative strong-field molecular ionization.

Original language	English
Article number	113005
Journal	Physical Review Letters
Volume	112
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevLett.112.113005
State	Published - 18 Mar 2014
Externally published	Yes

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10.1103/PhysRevLett.112.113005

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title = "Transition between mechanisms of laser-induced field-free molecular orientation",

abstract = "The transition between two distinct mechanisms for the laser-induced field-free orientation of CO molecules is observed via measurements of orientation revival times and subsequent comparison to theoretical calculations. In the first mechanism, which we find responsible for the orientation of CO up to peak intensities of 8×1013 W/cm2, the molecules are impulsively oriented through the hyperpolarizability interaction. At higher intensities, asymmetric depletion through orientation-selective ionization is the dominant orienting mechanism. In addition to the clear identification of the two regimes of orientation, we propose that careful measurements of the onset of the orientation depletion mechanism as a function of the laser intensity will provide a relatively simple route to calibrating absolute rates of nonperturbative strong-field molecular ionization.",

author = "I. Znakovskaya and M. Spanner and S. De and H. Li and D. Ray and P. Corkum and Litvinyuk, \{I. V.\} and Cocke, \{C. L.\} and Kling, \{M. F.\}",

year = "2014",

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doi = "10.1103/PhysRevLett.112.113005",

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T1 - Transition between mechanisms of laser-induced field-free molecular orientation

AU - Znakovskaya, I.

AU - Spanner, M.

AU - De, S.

AU - Li, H.

AU - Ray, D.

AU - Corkum, P.

AU - Litvinyuk, I. V.

AU - Cocke, C. L.

AU - Kling, M. F.

PY - 2014/3/18

Y1 - 2014/3/18

N2 - The transition between two distinct mechanisms for the laser-induced field-free orientation of CO molecules is observed via measurements of orientation revival times and subsequent comparison to theoretical calculations. In the first mechanism, which we find responsible for the orientation of CO up to peak intensities of 8×1013 W/cm2, the molecules are impulsively oriented through the hyperpolarizability interaction. At higher intensities, asymmetric depletion through orientation-selective ionization is the dominant orienting mechanism. In addition to the clear identification of the two regimes of orientation, we propose that careful measurements of the onset of the orientation depletion mechanism as a function of the laser intensity will provide a relatively simple route to calibrating absolute rates of nonperturbative strong-field molecular ionization.

AB - The transition between two distinct mechanisms for the laser-induced field-free orientation of CO molecules is observed via measurements of orientation revival times and subsequent comparison to theoretical calculations. In the first mechanism, which we find responsible for the orientation of CO up to peak intensities of 8×1013 W/cm2, the molecules are impulsively oriented through the hyperpolarizability interaction. At higher intensities, asymmetric depletion through orientation-selective ionization is the dominant orienting mechanism. In addition to the clear identification of the two regimes of orientation, we propose that careful measurements of the onset of the orientation depletion mechanism as a function of the laser intensity will provide a relatively simple route to calibrating absolute rates of nonperturbative strong-field molecular ionization.

UR - https://www.scopus.com/pages/publications/84897873284

U2 - 10.1103/PhysRevLett.112.113005

DO - 10.1103/PhysRevLett.112.113005

M3 - 文章

AN - SCOPUS:84897873284

SN - 0031-9007

VL - 112

JO - Physical Review Letters

JF - Physical Review Letters

IS - 11

M1 - 113005

ER -

Transition between mechanisms of laser-induced field-free molecular orientation

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