Quantum theory of multiwave mixing
Thesis/Dissertation
·
OSTI ID:6724834
This dissertation formulates and applies a theory describing how one or two strong classical waves and one or two weak quantum mechanical waves interact in a two-level medium. The theory unifies many topics in quantum optics, such as resonance fluorescence, saturation spectroscopy, modulation spectroscopy, the buildup of laser and optical bistability instabilities, and phase conjugation. The theory is based on a quantum population pulsation approach that resembles the semiclassical theories, but is substantially more detailed. Calculations are performed to include the effects of inhomogeneous broadening, spatial hole burning, and Gaussian transverse variations. The resonance fluorescence spectrum in a high finesse optical cavity is analyzed in detail, demonstrating how stimulated emission and multiwave processes alter the spectrum from the usual three peaks. The effects of quantum noise during the propagation of weak signal and conjugate fields in phase conjugation and modulation spectroscopy are studied. The analysis demonstrates that quantum noise affects not only the intensities of the signal and conjugate, but also their relative phase and, in particular, the author determines a quantum limit to the semiclassical theory of FM modulation spectroscopy. Finally, he derives the corresponding theory for the two-photon, two-level medium. This yields the first calculation of the two photon resonance fluorescence spectrum.
- Research Organization:
- Arizona Univ., Tucson (USA)
- OSTI ID:
- 6724834
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
657002* -- Theoretical & Mathematical Physics-- Classical & Quantum Mechanics
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
CLASSICAL MECHANICS
DIFFERENTIAL EQUATIONS
EMISSION
ENERGY-LEVEL TRANSITIONS
EQUATIONS
FLUORESCENCE
FREQUENCY MODULATION
LUMINESCENCE
MECHANICS
MODULATION
MULTI-PHOTON PROCESSES
PARTIAL DIFFERENTIAL EQUATIONS
QUANTUM MECHANICS
RESONANCE FLUORESCENCE
SPECTROSCOPY
STARK EFFECT
STIMULATED EMISSION
WAVE EQUATIONS
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
CLASSICAL MECHANICS
DIFFERENTIAL EQUATIONS
EMISSION
ENERGY-LEVEL TRANSITIONS
EQUATIONS
FLUORESCENCE
FREQUENCY MODULATION
LUMINESCENCE
MECHANICS
MODULATION
MULTI-PHOTON PROCESSES
PARTIAL DIFFERENTIAL EQUATIONS
QUANTUM MECHANICS
RESONANCE FLUORESCENCE
SPECTROSCOPY
STARK EFFECT
STIMULATED EMISSION
WAVE EQUATIONS