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001471960 019__ $$a1390774491
001471960 020__ $$a9789819923335$$q(electronic bk.)
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001471960 0247_ $$a10.1007/978-981-99-2333-5$$2doi
001471960 035__ $$aSP(OCoLC)1390922812
001471960 040__ $$aEBLCP$$beng$$cEBLCP$$dYDX$$dGW5XE$$dEBLCP$$dOCLCQ
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001471960 050_4 $$aQC446.2
001471960 08204 $$a535.15$$223/eng/20230728
001471960 1001_ $$aMeng, Xiang-Guo.
001471960 24510 $$aEntangled state representations in quantum optics /$$cXiang-Guo Meng, Ji-Suo Wang, Bao-Long Liang.
001471960 260__ $$aSingapore :$$bSpringer,$$c2023.
001471960 300__ $$a1 online resource (289 p.)
001471960 500__ $$a7.2 Multi-variable Special Polynomials and Their Generating Functions
001471960 5050_ $$aIntro -- Preface -- Contents -- 1 Integration Method Within an Ordered Product of Operators and Continuous-Variable Entangled State Representations -- 1.1 Integration Method Within an Ordered Product of Operators -- 1.1.1 Normal Ordering Case -- 1.1.2 Anti-normal Ordering Case -- 1.1.3 Weyl Ordering Case -- 1.2 Two-Particle Entangled State Representation -- 1.3 Thermal Entangled State Representation -- 1.3.1 Bosonic Case -- 1.3.2 Fermionic Case -- References -- 2 Dynamics of Two-Body Hamiltonian Systems -- 2.1 Energy-Level Distribution and Wave Function of Two-Body Hamiltonian System
001471960 5058_ $$a2.1.1 Two Moving Charged Particles with Elastic Coupling -- 2.1.2 Two Moving Charged Particles with Coulomb Coupling -- 2.2 Path Integral Theory in Entangled State Representation -- 2.3 Evolution of Atomic Coherent State Governed by the Hamiltonian ... -- 2.4 Atomic Coherent States as Energy Eigenstates of the Hamiltonian ... -- References -- 3 New Bipartite Entangled States in Two-Mode Fock Space -- 3.1 Coherent-Entangled States -- 3.2 Entangled States Describing Parametric Down Conversion -- 3.3 Parameterized Entangled States Induced by the Common Eigenstates ...
001471960 5058_ $$a3.4 Parameterized Entangled States as the Common Eigenstates ... -- References -- 4 Solutions of Density Operator Master Equations -- 4.1 Solutions of Several Boson Master Equations -- 4.1.1 Diffusion Master Equation Under Linear Resonance Force -- 4.1.2 Master Equation for Single-Mode Cavity Driven by Oscillating External Field in a Heat Reservoir -- 4.1.3 Master Equation for Damped Harmonic Oscillator Acted by Linear Resonance Force in a Squeezed Heat Reservoir -- 4.1.4 Master Equation Describing a Diffusive Anharmonic Oscillator -- 4.2 Solutions of Several Fermi Quantum Master Equations
001471960 5058_ $$a4.2.1 Fermi Master Equations for Amplitude Damping and Phase Damping -- 4.2.2 Master Equation for Fermi Heat Reservoir -- 4.3 Generation of Displaced Thermal State -- References -- 5 Wigner Distribution Function and Quantum Tomogram via Entangled State Representations -- 5.1 Wigner Distribution Functions -- 5.1.1 Wigner Operator Theory -- 5.1.2 Wigner Distribution Functions for Quantum States -- 5.2 Quantum-state Tomography -- 5.2.1 Quantum Tomography -- 5.2.2 Quantum Tomograms of Quantum States -- References -- 6 Evolution and Decoherence of Quantum States in Open Systems
001471960 5058_ $$a6.1 Evolution of Quantum States in the Amplitude Damping Channel -- 6.1.1 Displaced Thermal States -- 6.1.2 Thermal-State Superpositions -- 6.1.3 Two-Mode Squeezed Vacuum States -- 6.2 Evolution of Quantum States in the Laser Process -- 6.2.1 Squeezed Number States -- 6.2.2 Squeezed Thermal States -- 6.2.3 Multi-photon Subtracted Squeezed Vacuum States -- 6.2.4 Multi-photon Added Two-Mode Squeezed Thermal States -- References -- 7 Generalized Binomial Theorems and Multi-variable Special Polynomials Involving Hermite Polynomials -- 7.1 Generalized Binomial Theorems Involving Hermite Polynomials
001471960 506__ $$aAccess limited to authorized users.
001471960 520__ $$aThis book highlights the applications of continuous-variable entangled state representations in the research areas of quantum optics via the integration method within an ordered product of operators (IWOP). As a way to develop the Diracs symbolic method, the IWOP method has made the integration of non-commutative operators possible by arranging non-commutable operators within an ordered product symbol. It not only deals with many existent quantum optics problems but also explores new research fields. The book also establishes a theoretical framework for solving important quantum optics subjects by taking full advantage of the entangled state representations. With original methods and detailed descriptions, the book is suitable for researchers, instructors, and students interested in quantum mechanics, quantum optics, and quantum information science.
001471960 588__ $$aDescription based on print version record.
001471960 650_0 $$aQuantum optics.
001471960 650_0 $$aQuantum entanglement.
001471960 655_0 $$aElectronic books.
001471960 7001_ $$aWang, Ji-Suo.
001471960 7001_ $$aLiang, Bao-Long.
001471960 77608 $$iPrint version:$$aMeng, Xiang-Guo$$tEntangled State Representations in Quantum Optics$$dSingapore : Springer,c2023$$z9789819923328
001471960 852__ $$bebk
001471960 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-99-2333-5$$zOnline Access$$91397441.1
001471960 909CO $$ooai:library.usi.edu:1471960$$pGLOBAL_SET
001471960 980__ $$aBIB
001471960 980__ $$aEBOOK
001471960 982__ $$aEbook
001471960 983__ $$aOnline
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