LEADER 04341nam 2200493 450 001 996499860003316 005 20230417015713.0 010 $a3-031-19414-4 035 $a(MiAaPQ)EBC7150656 035 $a(Au-PeEL)EBL7150656 035 $a(CKB)25510413400041 035 $a(OCoLC)1352975225 035 $a(PPN)266350666 035 $a(EXLCZ)9925510413400041 100 $a20230417d2022 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aNonclassical effects and dynamics of quantum observables /$fS. Lakshmibala, V. Balakrishnan 210 1$aCham, Switzerland :$cSpringer,$d[2022] 210 4$dİ2022 215 $a1 online resource (138 pages) 225 1 $aSpringerBriefs in physics 311 08$aPrint version: Lakshmibala, S. Nonclassical Effects and Dynamics of Quantum Observables Cham : Springer International Publishing AG,c2023 9783031194139 320 $aIncludes bibliographical references. 327 $aIntro -- Preface -- Contents -- Acronyms -- 1 Introduction -- References -- 2 Revivals, Fractional Revivals and Tomograms -- 2.1 Introduction -- 2.2 Basic Mechanism of Wave Packet Revivals -- 2.3 An Illustrative Example -- 2.4 Signatures of Revivals in Expectation Values of Observables -- 2.5 Effect of an Imperfectly Coherent Initial State -- 2.6 Revivals in Single-Mode Systems: A Tomographic Approach -- 2.7 Decoherence Effects -- 2.8 A Tomographic Approach to the Double-Well BEC System -- References -- 3 Tomographic Approach to Squeezing -- 3.1 Introduction -- 3.2 Entropic Squeezing from Optical Tomograms -- 3.3 Quadrature and Higher-Order Squeezing from Optical Tomograms -- References -- 4 Entanglement at Avoided Level Crossings -- 4.1 Introduction -- 4.2 Entanglement Indicators from Optical and Qubit Tomograms -- 4.3 Entanglement Indicators and Squeezing in Spin Systems -- 4.4 Bipartite CV Models and Avoided Level Crossings -- 4.5 Avoided Crossings in Multipartite HQ Systems: The Tavis-Cummings Model -- References -- 5 Dynamics and Entanglement Indicators in Bipartite CV Systems -- 5.1 Introduction -- 5.2 The Bipartite Atom-Field Interaction Model Revisited -- 5.2.1 Time Evolution -- 5.2.2 Entanglement Dynamics -- 5.2.3 Tomographic Entanglement Indicators During Time Evolution -- 5.3 The Double-Well BEC Model Revisited -- 5.3.1 Time Development -- 5.3.2 Decoherence Effects in the Double-Well BEC Model -- References -- 6 Dynamics of Entanglement Indicators in Hybrid Quantum and Spin Systems -- 6.1 Introduction -- 6.2 The Double Jaynes-Cummings Model -- 6.2.1 Dynamics -- 6.2.2 Equivalent Circuit for the DJC Model and the IBM Q Platform -- 6.3 The Double Tavis-Cummings Model -- 6.3.1 The Model -- 6.3.2 Equivalent Circuit and the IBM Q Platform -- 6.4 Bipartite Entanglement in Tripartite Models -- 6.4.1 The Cavity Optomechanical System. 327 $a6.4.2 ?-Atom Interacting with Radiation Fields -- 6.5 Entanglement and Squeezing in NMR Experiments -- 6.5.1 NMR Experiment I -- 6.5.2 Blockade and Freezing in Nuclear Spins -- 6.6 Concluding Remarks -- References -- 7 Dynamics of the Mean Photon Number: Time Series and Network Analysis -- 7.1 Introduction -- 7.2 Brief Overview of Time Series Analysis -- 7.3 The Bipartite Atom-Field Interaction Model: Time Series Analysis -- 7.3.1 Dynamics -- 7.3.2 Power Spectrum and Lyapunov Exponent -- 7.3.3 Recurrence Statistics -- 7.4 Three-Level Atom Interacting with Radiation Fields -- 7.5 The Tripartite HQ Model with Intensity-Dependent Couplings -- 7.5.1 The Model -- 7.5.2 Time Series Analysis with Large and Small Data Sets -- 7.5.3 Return Maps and Recurrence Time Distributions -- 7.5.4 Recurrence Plots and Recurrence Network -- 7.5.5 Network Analysis -- 7.6 Concluding Remarks -- References -- 8 Conclusion and Outlook. 410 0$aSpringerBriefs in physics. 606 $aQuantum computing 606 $aQuantum theory 615 0$aQuantum computing. 615 0$aQuantum theory. 676 $a006.3843 700 $aLakshmibala$b S.$01270944 702 $aBalakrishnan$b V. 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a996499860003316 996 $aNonclassical effects and dynamics of quantum observables$93088870 997 $aUNISA LEADER 02150nam0 2200445 i 450 001 VAN0132775 005 20230621103234.547 017 70$2N$a9783319011103 100 $a20210325d2014 |0itac50 ba 101 $aeng 102 $aCH 105 $a|||| ||||| 200 1 $aSuperconductivity in Graphene and Carbon Nanotubes$eProximity effect and nonlocal transport$eDoctoral Thesis accepted by the Autonomous University of Madrid, Spain$fPablo Burset Atienza 210 $aCham$cSpringer$d2014 215 $axix, 157 p.$cill.$d24 cm 410 1$1001VAN0104193$12001 $aSpringer theses$erecognizing outstanding Ph.D. research$1210 $aBerlin$cSpringer$d2010- 500 1$3VAN0134743$aSuperconductivity in Graphene and Carbon Nanotubes$91768725 606 $a82-XX$xStatistical mechanics, structure of matter [MSC 2020]$3VANC021931$2MF 606 $a00A79 (77-XX)$xPhysics [MSC 2020]$3VANC023182$2MF 610 $aAndreev Reflection$9KW:K 610 $aCooper Pair Splitters$9KW:K 610 $aGraphene Superlattices$9KW:K 610 $aGraphene-superconductor Junction$9KW:K 610 $aNonlocal Transport in Graphene$9KW:K 610 $aNonlocally Entangled Electron Pairs$9KW:K 610 $aProximity Effect in Graphene$9KW:K 610 $aStructure of Graphene-superconductor Interface$9KW:K 610 $aSuperconducting Electrodes$9KW:K 610 $aTransport Properties of Carbon Nanotubes$9KW:K 620 $aCH$dCham$3VANL001889 700 1$aBurset Atienza$bPablo$3VANV106597$0791346 712 $aSpringer $3VANV108073$4650 801 $aIT$bSOL$c20240614$gRICA 856 4 $uhttp://doi.org/10.1007/978-3-319-01110-3$zE-book ? 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