Theory of Nonclassical States of Light
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advanced quantum mechanics
approximation
Atomic Inversion
Binomial States
Boson Operators
Category=PHQ
coherent
Coherent State
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eq_nobargain
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Field Entropy
fock
function
initial
Initial Coherent State
JCM
Kerr Medium
Kerr States
Lie Algebra
light-matter interaction
Linear Canonical Transformation
Minimum Uncertainty State
Nonclassical States
Nonunitary Approach
number
optical quantum information
Ordinary Differential Equations
phase space methods
photon
Quadratic Hamiltonians
quantum measurement techniques
quantum optics theory
quantum state reconstruction methods
Radon Transform
rotating
SQUEEZED STATES
Squeezed Vacuum
Squeezed Vacuum States
Squeezing Operator
Stokes Parameters
Tomographic Probability
wave
Wave Function
wigner
Wigner Function
Product details
- ISBN 9780367395353
- Weight: 720g
- Dimensions: 152 x 229mm
- Publication Date: 26 Sep 2019
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Paperback
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The term 'nonclassical states' refers to the quantum states that cannot be produced in the usual sources of light, such as lasers or lamps, rather than those requiring more sophisticated apparatus for their production. Theory of Non-classical States of Light describes the current status of the theory of nonclassical states of light including many new and important results as well as introductory material and the history of the subject. The authors concentrate on the most important types of nonclassical states, namely squeezed, even/odd ('Schrodinger cat') and binomial states, including their generalizations. However, a review of other types of nonclassical is also given in the introduction, and methods for generating nonclassical states on various processes of light-matter interaction, their phase-space description, and the time evolution of nonclassical states in these processes is presented in separate chapters.
This contributed volume contains all of the necessary formulae and references required to gain a good understanding of the principles and current status of the field. It will provide a valuable information resource for advanced students and researchers in quantum physics.
V. V. Dodonov , V. I. Man'ko
