Memory correlation effects on quantum noise in lasers and masers
- 1 June 1990
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 41 (11) , 6119-6128
- https://doi.org/10.1103/physreva.41.6119
Abstract
We demonstrate how spontaneous-emission noise in lasers and masers can be reduced through memory effects of the lasing atoms. We show that for short measurement times the spontaneous-emission noise can be smaller than the usual Schawlow-Townes limit. We discuss a general model for atomic memory effects and derive expressions for the noise correlation function, phase diffusion, and the emitted spectrum. Furthermore, we allow for a frequency distribution over the lasing atoms and hence account for Doppler broadening or a selective excitation of the atoms.Keywords
This publication has 13 references indexed in Scilit:
- Atomic memory effects in the quantum theory of laserOptics Communications, 1988
- Quantum noise reduction via maser memory effects: Theory and applicationsPhysical Review Letters, 1988
- Quantum-noise quenching in the correlated spontaneous-emission laser as a multiplicative noise process. I. A geometrical argumentPhysical Review A, 1988
- Efficient energy extraction from highly forbidden transitions by means of high-power pulsesJournal of the Optical Society of America B, 1986
- Correlated Spontaneous-Emission Lasers: Quenching of Quantum Fluctuations in the Relative Phase AnglePhysical Review Letters, 1985
- On the measurement of a weak classical force coupled to a quantum-mechanical oscillator. I. Issues of principleReviews of Modern Physics, 1980
- Coherent and Incoherent States of the Radiation FieldPhysical Review B, 1963
- Equivalence of Semiclassical and Quantum Mechanical Descriptions of Statistical Light BeamsPhysical Review Letters, 1963
- Infrared and Optical MasersPhysical Review B, 1958
- The Maser—New Type of Microwave Amplifier, Frequency Standard, and SpectrometerPhysical Review B, 1955