現代光量子存儲 (英文) 徐端頤 9787302673927 【台灣高等教育出版社】

作者簡介
徐端頤，清華大學教授，歷任清華大學微細工程研究所所長、光存儲國家工程研究中心主任、國家重點基礎研究973首席科學家、美國賓夕法尼亞大學等大學的兼職教授、國際光學光子學會資深委員。已出版光學存儲國際技術會議論文集2本，英文專著2本，中文專著5本，在國內外刊物上發表論文4百餘篇，擁有相關中國發明專利60余項，美國發明專利兩項。

目錄

Chapter 1The latest development in photonic memory
1 1New developments in photonics
1 2Other big data storage technology
1 3Photonic quantum for memory
1 4Controllabledipole quantum memory
1 5MaxwellBloch equations
1 6Ramantype optical quantum memory
1 7Precision of spinechobased quantum memories
1 8Integrated photonics for memory
1 9Photonic integration solid state memory
1 10Other new quantum memory technologies
1 10 1Ultraviolet photonic storage
1 10 2Plasmonic optical storage
1 10 3Xray storage
1 10 4Nanoprobe and molecular polymer storage
1 10 5Electronic quantum holography
1 10 6Compositive application of the different principles
Chapter 2Fundamentals of quantum information
2 1Introduction
2 1 1Quantum computing (QC) roadmap
2 1 2New quantum computation roadmap
2 2Basic concepts
2 2 1Quatum information
2 2 2Targets of quantum information research
2 2 3Experiments
2 2 4Primary concepts
2 2 5Separability criteria and positive maps
2 3Basic concepts
2 3 1Maximally entangled states
2 3 2Channels
2 3 3Observables and preparations
2 3 4Quantum mechanics in phase space
2 4Microaperture laser for photonic memory
2 4 1Teleportation and dense coding
2 4 2Entanglement enhanced teleportation
2 4 3Dense coding
2 4 4Estimating and copying
2 4 5Distillation of entanglement
2 4 6Quantum error correction
2 4 7Quantum computing
2 4 8Quantum cryptography
2 5Entanglement measures
2 5 1General properties and definitions
2 5 2Two qubits
2 5 3Entanglement measures under symmetry
2 6Channel capacity
2 6 1The general case
2 6 2The classical capacity
2 6 3The quantum capacity
2 7Multiple inputs
2 8Quantum probability
2 8 1Review of quantum probability
2 8 2Why classical probability does not suffice
2 8 3Towards a mathematical model
2 8 4Quantum probability
2 8 5Operations on probability spaces
2 8 6Examples of quantum operations
2 8 7Quantum impossibilities
2 8 8Quantum novelties
2 9Dense quantum coding and quantum finite automata
2 9 1Holevos theorem and the entropy coalescence lemma
2 9 2The asymptotic of random access codes
2 9 3Oneway quantum finite automata
2 9 4Quantum advantage for dense coding
2 10Quantum data compression
2 10 1Quantum data compression: an example
2 10 2Schumacher encoding in general
2 10 3Mixedstate coding: Holevo information
2 10 4Accessible information
2 11Photonic technologies for quantum information
2 11 1Singlephoton sources
2 11 2Entangledphoton sources
2 11 3Singlephoton detectors
2 11 4Mathematical background
Chapter 3Multidimension Photonic Memory
3 1Mechanism of photochromic multidimension memory
3 1 1Photochromic reaction
3 1 2Multiwavelength photochromic storage process
3 1 3Model of data writing
3 2Experiments for multiwavelength and multilevel storage
3 2 1The influence of initial reflectivity to writing speed
3 2 2The influence of the maximum reflectivity to writing process
3 2 3Written time constant k
3 2 4Reflectivity of the reflective layer
3 2 5Time constants k
3 3Crosstalk in multiwavelength and multilevel storage
3 3 1Emerging of crosstalk
3 3 2The calculations of crosstalk
3 4Nondestructive readout
3 5Multiwavelength and multilevel storage system
3 5 1System architecture
3 5 2Optical channel characteristics and crosstalk analysis
3 6Modulation coding and error correction
3 6 1Modulation coding
3 6 2The error correction coding
3 6 3Multiwavelength and multilevel storage error code correction
3 6 4ReedSolomon errorcorrecting code
3 7Application of multiwavelength and multilevel storage
3 7 1Multilevel bluray disc drive

前言/序言
Information memory is an important means of human civilization transmission and a core link of modern information technology Quantum photonic memory is an essential basic device in the era from classical information to quantum information Quantum photonic memory should be able to store various quantum states including with any quantum state Like classical computers，generalpurpose quantum computers require quantum memory for complex computational functions Depending on the specific computing chip，the memory must store the corresponding quantum information carrier Usually classical memory measured in bits，and todays classical memory can reach the order of terabytes (240) So the Optical Memory National Engineering Research Centre (OMNERC) at Tsinghua University has been engaged in optical memory research si