Steady-state pulses and superradiance in short-wavelength, swept-gain amplifiers

R. Bonifacio; F. A. Hopf; P. Meystre; M. O. Scully

doi:10.1103/PhysRevA.12.2568

Steady-state pulses and superradiance in short-wavelength, swept-gain amplifiers

R. Bonifacio, F. A. Hopf, P. Meystre, M. O. Scully

Physics

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

56 Scopus citations

Abstract

The steady-state behavior of amplifiers in which the excitation is swept at the speed of light is discussed in the semiclassical approximation. In the present work we examine the case where the decay time of the population is comparable to that of the polarization. Pulse propagation is shown to obey a generalized sine-Gordon equation which contains the effects of atomic relaxations. The analytical expression of the steady-state pulses (SSP) gives two threshold conditions. In the region of limited gain the SSP is a broad pulse with small area which can be obtained by small signal theory. In the second region of high gain the SSP is the superradiant π pulse. Its pulse power is not limited as in usual superradiant theory because, as we show, for a swept excitation the cooperation-length limit does not exist.

Original language	English (US)
Pages (from-to)	2568-2573
Number of pages	6
Journal	Physical Review A
Volume	12
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.12.2568
State	Published - 1975

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1103/PhysRevA.12.2568

Cite this

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title = "Steady-state pulses and superradiance in short-wavelength, swept-gain amplifiers",

abstract = "The steady-state behavior of amplifiers in which the excitation is swept at the speed of light is discussed in the semiclassical approximation. In the present work we examine the case where the decay time of the population is comparable to that of the polarization. Pulse propagation is shown to obey a generalized sine-Gordon equation which contains the effects of atomic relaxations. The analytical expression of the steady-state pulses (SSP) gives two threshold conditions. In the region of limited gain the SSP is a broad pulse with small area which can be obtained by small signal theory. In the second region of high gain the SSP is the superradiant π pulse. Its pulse power is not limited as in usual superradiant theory because, as we show, for a swept excitation the cooperation-length limit does not exist.",

author = "R. Bonifacio and Hopf, {F. A.} and P. Meystre and Scully, {M. O.}",

note = "Funding Information: Supported in part by the National Science Foundation. Funding Information: Supported by the Swiss National Foundation for Scientific Research. ",

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doi = "10.1103/PhysRevA.12.2568",

language = "English (US)",

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journal = "Physical Review A",

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T1 - Steady-state pulses and superradiance in short-wavelength, swept-gain amplifiers

AU - Bonifacio, R.

AU - Hopf, F. A.

AU - Meystre, P.

AU - Scully, M. O.

N1 - Funding Information: Supported in part by the National Science Foundation. Funding Information: Supported by the Swiss National Foundation for Scientific Research.

PY - 1975

Y1 - 1975

N2 - The steady-state behavior of amplifiers in which the excitation is swept at the speed of light is discussed in the semiclassical approximation. In the present work we examine the case where the decay time of the population is comparable to that of the polarization. Pulse propagation is shown to obey a generalized sine-Gordon equation which contains the effects of atomic relaxations. The analytical expression of the steady-state pulses (SSP) gives two threshold conditions. In the region of limited gain the SSP is a broad pulse with small area which can be obtained by small signal theory. In the second region of high gain the SSP is the superradiant π pulse. Its pulse power is not limited as in usual superradiant theory because, as we show, for a swept excitation the cooperation-length limit does not exist.

AB - The steady-state behavior of amplifiers in which the excitation is swept at the speed of light is discussed in the semiclassical approximation. In the present work we examine the case where the decay time of the population is comparable to that of the polarization. Pulse propagation is shown to obey a generalized sine-Gordon equation which contains the effects of atomic relaxations. The analytical expression of the steady-state pulses (SSP) gives two threshold conditions. In the region of limited gain the SSP is a broad pulse with small area which can be obtained by small signal theory. In the second region of high gain the SSP is the superradiant π pulse. Its pulse power is not limited as in usual superradiant theory because, as we show, for a swept excitation the cooperation-length limit does not exist.

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Steady-state pulses and superradiance in short-wavelength, swept-gain amplifiers

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