Study of collisionless multiphoton absorption in S $F_{6}$ using picosecond C $O_{2}$ laser pulses

1 June 1981

journal article
research article
Published by American Physical Society (APS) in Physical Review A

Vol. 23 (6) , 3094-3106
https://doi.org/10.1103/physreva.23.3094

Abstract

The dynamics of collisionless infrared multiphoton absorption in S

F_{6}

was studied using picosecond C

O_{2}

laser pulses. It was found that at this new regime of light-matter interaction at very high laser intensities, the absorption in the quasicontinuum has a considerable intensity dependence. The deviation from an energy fluence scaling law was found to begin at about 200 MW/

{cm}^{2}

. Above this intensity, the multiphoton interaction between the laser and the molecule should be described by the full coherent Schrödinger equation rather than by the usual master rate equations. A novel method of preheating the S

F_{6}

molecules is also described and the saturation behavior of these preheated molecules is measured with the picosecond pulses.

Keywords

This publication has 30 references indexed in Scilit:

Coherent Transient Effects in Optical Spectroscopy
Annual Review of Physical Chemistry, 1979
Multiphoton Dissociation of Polyatomic Molecules
Annual Review of Physical Chemistry, 1979
Resonant Multiphoton Dissociation and Mechanism of Excitation for Ethyl Chloride
Physical Review Letters, 1979
Collisionless multiphoton energy deposition and dissociation of S $F_{6}$
Physical Review A, 1979
The selective dissociation of SF6 in an intense ir field: A molecular beam study on the influence of laser wavelength and energy
The Journal of Chemical Physics, 1978
Infrared-laser-induced unimolecular reactions
Physics Today, 1978
Collisionless Multiphoton Dissociation of S $F_{6}$ : A Statistical Thermodynamic Process
Physical Review Letters, 1977
A simple self-triggered plasma shutter
Optics Communications, 1977
CO2 oscillator–pulse shaper–amplifier system producing 0.1 J in a 500 psec laser pulse
Review of Scientific Instruments, 1975
The mechanism of single-frequency operation of the hybrid-CO2laser
IEEE Journal of Quantum Electronics, 1975

Study of collisionless multiphoton absorption in SF6using picosecond CO2laser pulses

Abstract

Keywords

Study of collisionless multiphoton absorption in S $F_{6}$ using picosecond C $O_{2}$ laser pulses