DocumentCode :
1094423
Title :
Large dc-electric-field-induced nonlinear optical susceptibility of hydrogen atomic vapors
Author :
Boyd, Robert W. ; Xiang, Lian-Qin
Author_Institution :
University of Rochester, Rochester, NY, USA
Volume :
18
Issue :
8
fYear :
1982
fDate :
8/1/1982 12:00:00 AM
Firstpage :
1242
Lastpage :
1246
Abstract :
A unique set of circumstances makes the Rydberg states of atoms ideal for mediating tunable, resonantly enhanced, nonlinear optical interactions. The application of a dc electric field to a vapor of such atoms can induce a second-order or 
nonlinear susceptibility, which in the absence of the applied field would be forbidden by reasons of symmetry. This paper presents an exact expression, valid within the hydrogenic approximation for field strengths that produce a linear Stark effect, for the resonant contribution to the dc-electric-field-induced susceptibility. Numerical evaluation of this expression for field strengths of the order of 103V/cm predict susceptibilities hundreds of times larger than those of conventional mixing crystals.
nonlinear susceptibility, which in the absence of the applied field would be forbidden by reasons of symmetry. This paper presents an exact expression, valid within the hydrogenic approximation for field strengths that produce a linear Stark effect, for the resonant contribution to the dc-electric-field-induced susceptibility. Numerical evaluation of this expression for field strengths of the order of 103V/cm predict susceptibilities hundreds of times larger than those of conventional mixing crystals.Keywords :
Hydrogen materials/devices; Optical propagation in nonlinear media; Stark effect; Atom optics; Atomic measurements; Crystals; Frequency; Hydrogen; Infrared detectors; Nonlinear optics; Optical mixing; Resonance; Tunable circuits and devices;
fLanguage :
English
Journal_Title :
Quantum Electronics, IEEE Journal of
Publisher :
ieee
ISSN :
0018-9197
Type :
jour
DOI :
10.1109/JQE.1982.1071679
Filename :
1071679
Link To Document :
