The book highlights the very interesting physical processes of quantum mechanics such as quantum interference, entanglement and quantum teleportation, which are hot topics in quantum information.
This book highlights the physical processes of quantum mechanics such as quantum interference, entanglement and quantum teleportation, within the topic of quantum information and quantum computing.
Quantal and Classical Coherence and Correlation begins with exploring the general mathematical physical concepts of coherence and correlation and provides comparative discussion of classical and quantum coherence and correlation. In this context the author explains the principles of quantum information, and the discussion then moves to material coherence and optical coherence and their control. He then discusses the differences between classical and quantal information techniques. The book closes with a discussion the application probabilities of quantum technologies by examining the present and future applications of coherence.
This book is intended for upper-level undergraduate and graduate physics and engineering students who are studying nonlinear optics, light-matter interaction, quantum information and Industrial professionals who are involved in electronics and photonics. It will also be of interest to engineers involved in quantum information and quantum networks.
Chapter 1 RealTime Vibrational ModeCoupling Associated with Ultrafast
Geometrical Relaxation in Polydiacetylene ;
Chapter 2 Nonclassical
Correlations of Photon Number and Field ;
Chapter 3 WavePacket Dynamics in a
Cyanine Dye Molecule Excited with Femtosecond Chirped Pulses;
Chapter 4 The
Effect of the ElectronElectron Interactions on Localization in a
OneDimensional Disordered Model with LongRange Correlation.;
Chapter 5
Observation of an Oscillatory Correlation Function of Multimode TwoPhoton
Pairs;
Chapter 6 TwoPhoton Interference of Multimode TwoPhoton Pairs with
an Unbalanced Interferometer;
Chapter 7 QuasiMonocyclic NearInfrared Pulses
with a Stabilized CarrierEnvelope Phase Characterized by Noncollinear
CrossCorrelation FrequencyResolved Optical Gating;
Chapter 8 Correlations
of Instantaneous Transition Energy and Intensity of Absorption Peaks during
Molecular Vibration: Toward Potential HyperSurface;
Chapter 10
CarrierEnvelope PhaseControlled Quantum Interference in ;
Chapter 11
Fidelity and Information in the Quantum Teleportation of Continuous Variables
;
Chapter 12 ContinuousVariable Teleportation of SinglePhoton States. ;
Chapter 13 Nonideal Teleportation in CoherentState Basis. ;
Chapter 14
WavePacket Dynamics in a QuasiOneDimensional Metal Halogen Complex
Studied by Ultrafast TimeResolved ;
Chapter 15 Gain Tuning and Fidelity in
ContinuousVariable Quantum Teleportation. ;
Chapter 16 TwoMode Schrödinger
Cats, Entanglement and Teleportation ;
Chapter 17 Enhanced Entanglement of
Two Atoms Confined in a Multimode Optical Cavity;
Chapter 18 Decoy State
Quantum Key Distribution with a Photon NumberResolved Heralded SinglePhoton
Source ;
Chapter 20 Beamlike PhotonPair Generation for TwoPhoton
Interference and Polarization Entanglement. ;
Chapter 21 Phase Measurement at
the Heisenberg Limit with Three Photons;
Chapter 22 FourPhoton W State Using
TwoCrystal Geometry Parametric DownConversion;
Chapter 23 Generation of
FrequencyTunable PolarizationEntangled Photon Pairs ;
Chapter 24
MultiphotonEntangled States from TwoCrystal Geometry Parametric
DownConversion and Their Application in Quantum Teleportation ;
Chapter 25
Beamlike Photon Pairs Entangled by a 2 × 2 Fiber ;
Chapter 26 Simultaneous
Measurement of Real and Imaginary Parts of Nonlinear Susceptibility for the
Verification of the Kramers Kronig Relations in Femtosecond Spectroscopy;
Chapter 27 Snapshots of Dirac Fermions Near the Dirac Point in Topological
Insulators. ;
Chapter 28 Observation of an Excitonic Quantum Coherence in
CdSe Nanocrystals ;
Chapter 29 Generation of the FourPhoton W State and
Other MultiphotonEntangled States Using Parametric DownConversion;
Chapter
30 Information Losses in ContinuousVariable Quantum Teleportation
Takayoshi Kobayashi is a professor emeritus at the University of Tokyo, from which he graduated with bachelors, masters, and doctorate degrees. He joined the Institute of Physical and Chemical Research (Riken), and from 1977 to 1979, he was a temporary member of the technical staff at Bell Laboratories. In 1980, he joined the Department of Physics at the University of Tokyo as an associate professor and was promoted to full professor in 1994. In March 2006, he retired from the university and moved to the Department of Applied Physics and Chemistry at the University of ElectroCommunications in Tokyo. He was then appointed as Chair Professor and Director of the National ChiaoTung University in 2006, which became the National YangMing ChiaoTung University in 2021. His research interests include quantum electronics, laser physics, femtosecond spectroscopy, ultrafast nonlinear optics, quantum optics, chemical physics, and quantum information science and technology.
Lisainfo e-raamatute kohta