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Recombinational laser employing electron transitions of diatomic molecules

Journal Article:

Abstract

Conditions are established for obtaining laser action in the visible and uv regions of the spectrum, using transitions between electronic states of diatomic molecules during recombination of a dissociated gas. The mechanism of population inversion was studied for the oxygen molecule, and gain estimates were obtained for laser action at a wavelength of 4881 A. The feasibility of laser action at other wavelengths was examined.
Publication Date:
Dec 01, 1974
Product Type:
Journal Article
Reference Number:
EDB-76-054694
Resource Relation:
Journal Name: Zh. Eksp. Teor. Fiz.; (USSR); Journal Volume: 67
Subject:
42 ENGINEERING; GAS LASERS; FEASIBILITY STUDIES; GAIN; POPULATION INVERSION; RECOMBINATION; ULTRAVIOLET RADIATION; VISIBLE RADIATION; ELECTROMAGNETIC RADIATION; LASERS; RADIATIONS; 420300* - Engineering- Lasers- (-1989)
OSTI ID:
7363377
Research Organizations:
Inst. of Physics, Moscow
Country of Origin:
USSR
Language:
Russian
Other Identifying Numbers:
Journal ID: CODEN: ZETFA
Submitting Site:
IAA
Size:
Pages: 2064-2068
Announcement Date:

Journal Article:

Citation Formats

Biriukov, A S, Prokhorov, A M, Shelepin, L A, and Shirokov, N N. Recombinational laser employing electron transitions of diatomic molecules. USSR: N. p., 1974. Web.
Biriukov, A S, Prokhorov, A M, Shelepin, L A, & Shirokov, N N. Recombinational laser employing electron transitions of diatomic molecules. USSR.
Biriukov, A S, Prokhorov, A M, Shelepin, L A, and Shirokov, N N. 1974. "Recombinational laser employing electron transitions of diatomic molecules." USSR.
@misc{etde_7363377,
title = {Recombinational laser employing electron transitions of diatomic molecules}
author = {Biriukov, A S, Prokhorov, A M, Shelepin, L A, and Shirokov, N N}
abstractNote = {Conditions are established for obtaining laser action in the visible and uv regions of the spectrum, using transitions between electronic states of diatomic molecules during recombination of a dissociated gas. The mechanism of population inversion was studied for the oxygen molecule, and gain estimates were obtained for laser action at a wavelength of 4881 A. The feasibility of laser action at other wavelengths was examined.}
journal = {Zh. Eksp. Teor. Fiz.; (USSR)}
volume = {67}
journal type = {AC}
place = {USSR}
year = {1974}
month = {Dec}
}