ABSTRACT

Atomic correlations have been studied in physics for over 50 years and known as collective effects until recently when they came to be recognized as a source of entanglement. This is the first book that contains detailed and comprehensive analysis of two currently extensively studied subjects of atomic and quantum physics-atomic correlations and th

chapter 2|3 pages

Hamiltonians for Quantum Optics

chapter |11 pages

|2 > |1 >

chapter |4 pages

I1 I

chapter 4|2 pages

Representations of the EM Field

chapter |20 pages

Ex t

chapter 5|16 pages

Photon Phase Operator

chapter 6|24 pages

Squeezed States of Light

chapter |6 pages

E1 (t) E E2 (t)

chapter 8|12 pages

Single-Mode Interaction

chapter 9|16 pages

Open Quantum Systems

chapter 10|18 pages

Heisenberg Equations of Motion

chapter 11|18 pages

Dressed-AtomModel

chapter 12|20 pages

Fokker–Planck Equation

chapter 13|8 pages

Quantum Trajectory Theory

chapter 14|10 pages

Interaction-Free Measurements

chapter 15|20 pages

Classical and Quantum Interference

chapter 16|20 pages

Atom–Atom Entanglement

chapter 17|8 pages

Classical and Quantum Lithography

chapter 18|16 pages

Laser Model in the High-Q Limit

chapter 19|6 pages

Input–Output Theory

chapter 20|18 pages

Motion of Atoms in a Laser Field

chapter |2 pages

Final Remark

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