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Title: Quantum interference in two-photon excitation with squeezed and coherent fields

Journal Article · · Physical Review A
; ;  [1]
  1. Norman Bridge Laboratory of Physics, 12-33 California Institute of Technology, Pasadena, California 91125 (United States)
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Two-photon excitation of a three-level atom in a ladder configuration (1{r_arrow}2{r_arrow}3) by simultaneous illumination with fields in squeezed vacuum and coherent states results in quantum interference for the excitation process. The particular configuration considered here is one for which the signal and idler output fields of a subthreshold nondegenerate optical parametric oscillator are in resonance with the two-stepwise dipole atomic transitions (1{r_arrow}2,2{r_arrow}3), while a {open_quotes}reference oscillator{close_quotes} field is in two-photon resonance with the quadrupole transition (1{r_arrow}3). In an extension of the work of Ficek and Drummond [Phys. Rev. A 43, 6247 (1991)], a theoretical formulation based on the full quantum master equation for the problem is presented. The combined effects of quantum interference and the nonclassical character of the squeezed state are investigated, and offer the potential for a new detection strategy for quantum fluctuations of the electromagnetic field with ultrahigh frequencies (10{close_quote}s{endash}100{close_quote}s THz). Based on the theory developed, we analyze quantum interference in excitation in several special cases relevant to experimental realizations, including the effects of a small focusing angle of the squeezing onto the atoms, and unusual population inversions. Special emphasis is given to identifying intrinsically quantum optical field effects versus classical field effects. Procedures that could distinguish between the two (i.e., classical and nonclassical) are suggested. {copyright} {ital 1999} {ital The American Physical Society}

OSTI ID:
289200
Journal Information:
Physical Review A, Vol. 59, Issue 1; Other Information: PBD: Jan 1999
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
QUANTUM MECHANICS
MULTI-PHOTON PROCESSES
PHOTON-ATOM COLLISIONS
OSCILLATIONS
OPTICS
POPULATION INVERSION
INTERFERENCE
ENERGY LEVELS
FLUCTUATIONS