References
G. S. Agarwal: a)Opt. Commun.,2, 357 (1971);b) Phys. Rev. A,2, 2038 (1970);c) Phys. Rev. A,3, 1783 (1971);d) Atomic and molecular optics, inProceedings of the 1971 Rochester Symposium, edited byJ. H. Eberly (Rochester, N. Y., 1971);Phys. Rev., to be published;e) Phys. Rev. A,4 (1971) (in press).
a)R. H. Dicke:Phys. Rev.,93, 99 (1954). For various other approaches to the problem of superradiance, seeb)J. H. Eberly andN. Rehler:Phys. Lett.,29 A, 142 (1969);Phys. Rev. A,3, 1735 (1971);c)V. Ernst andP. Stehle:Phys. Rev.,176, 1456 (1968);d) M. Dillard andH. Robl:Phys. Rev.,184, 312 (1969);e)R. H. Lehmberg:Phys. Rev. A,2, 883 (1970);f)D. Dialetis:Phys. Rev. A,2, 559 (1970);g) R. Bonifacio, P. Schwendiman andF. Haake: submitted toPhys. Rev.
See for exampleG. S. Agarwal:Phys. Rev.,178, 2025 (1969) and some of the references therein.
I. S. Gradshteyn andI. M. Ryzhik:Table of Integrals, Series and Products (New York, 1965), p. 149.
D. N. Zubarev:Sov. Phys. Uspekhi,3, 320 (1960).
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Research supported by the U.S. Army Research Office.
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Agarwal, G.S. Approximate methods in the quantum statistical theory of superradiance. Lett. Nuovo Cimento 2, 49–54 (1971). https://doi.org/10.1007/BF02754753
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DOI: https://doi.org/10.1007/BF02754753