《量子波本質探討》是2014年西安交通大學出版社出版的圖書,作者是張新安。
基本介紹
- 外文名:Research in Nature of Quantum Wave
- 書名:量子波本質探討
- 作者:張新安
- 出版日期:2014年2月1日
- 開本:32
- 出版社:西安交通大學出版社
- 頁數:291頁
內容簡介,圖書目錄,
內容簡介
張新安所著的《量子波本質探討(漢英對照版)》從聲波的吸收開始討論,在建立了吸聲理論模型的基礎上,提出巨觀聲波可以看成剛體的概念。這一部份內容安排在第1到第4章。第5章在發現聲波負能量的基礎上,討論了宇宙暗能量模型。第6章討論了光量子現象和波粒二相理論。之後,作為進一步的驗證,在第7章中作者討論了大氣電磁波吸收問題。
附錄中收錄了作者的幾篇中文論文,其作為本書的核心內容可以方便中文讀者快速閱讀。
附錄中收錄了作者的幾篇中文論文,其作為本書的核心內容可以方便中文讀者快速閱讀。
圖書目錄
Chapter 1 Properties and Testing Methods of Sound Absorption Materials
1.1 Properties of Porous Absorptive Materials
1.1.1 Thick Porous Absorptive Materials
1.1.2 Curtains and Fabrics
1.2 Measurement of Sound Absorption Materials
1.3 Measurement Method and Apparatus of Air Permeability
and Yield Strength of Fiber Layer
1.3.1 Air Permeability
1.3.2 Yield Strength
Chapter 2 Introduction of Conventional Sound Absorption Theories
2.1 Sound Transmission of Porous Materials
2.1.1 Sound Transmission in the Round Pipe and Narrow Slit
2.1.2 Porous Sound Absorption Materials
2.2 Porous Sound Absorption Materials in Several Specific Cases
2.2.1 Sound Propagation in Porous Media
2.2.2 Sound Reduction due to Propagation through a Porous Material
2.2.3 Porous Sound Absorption Materials in Impedance Tube
2.2.4 Porous Materials with a Backing Cavity
2.2.5 Porous Liner Covered with a Limp Impervious Layer
2.2.6 Porous Liner Covered with a Perforated Sheet
2.2.7 Porous Liner Covered with a Limp Impervious Layer and a Perforated Sheet
Chapter 3 Sound Absorption Principle of Fibrous Materials
3.1 Introduction
3.2 Porous Material Sound Absorption Model
3.3 The Sound Energy Transmission Equation and Sound Absorption
Spectrum Formula of Porous Material
3.4 The Air Permeability and Peak Sound Absorption Coefficient
Formula of Porous Material
3.5 Sound Absorption Coefficient Formula of Porous Materials
3.6 Explanation of the Experimental Laws Quoted by the Literature
about Sound Absorption of Porous Materials
3.7 Conclusions
Chapter 4 The Quantum Phenomenon of Fabrics' Vapor Permeability
and Further Discussion about the Sound Absorption
Principle of Porous Material
4.1 The Quantum Change Rule of Fabrics' Vapor Permeability
4.1.1 Test Methods and Environment
4.1.2 Characteristics of Water Vapor Permeability of Fabrics
with Different Air Permeability and Similar Thickness
4.1.3 Characteristics of Water Vapor Permeability of the Fabrics
with Similar Air Permeability and Different Thickness
4.1.4 Changes of the Water Vapor Permeability of the Fabrics
with the Lapse of Time
4.1.5 Sum Up
4.2 Analyzing of the Sound Absorption Character of Porous
Material with Vapor Content
4.2.1 Resonance Sound Absorption Model of Densely Porous
Material
4.2.2 Analyzing of the Sound Absorption Character of Porous
Material with Vapor Content
4.3 Conclusions
Chapter 5 Dark Energy of Sound Wave and Universe
5.1 Introduction
5.2 The Negative and Quantum Energy of Sound Wave
5.2.1 The Interaction Principle of Sound Wave and Flexible Materials
5.2.2 The Negative Energy of Sound Wave
5.3 Analysis of Acoustic Waves and Cosmic Dark Energy
5.4 Conclusions
Chapter 6 The Wave Essence of Photon
6.1 Introduction
6.2 The Wave Theory of Photon's Essence
6.2.1 Deriving of the Photon Energy Equation with Classical
Wave Theory
6.2.2 Interpreting of the Compton Effect and Photoelectric
Effect By Classical Wave-Vibration Theory
6.2.3 Energy Transmission Equation of Light Wave to Electron
6.2.4 Phase Shift between Light Wave and Vibrator
6.2.5 Discussions
6.3 Conclusions
Chapter 7 Electromagnetic Wave Absorption Model of Atmosphere and Atmospheric Window Formula
7.I Introduction
7.2 The Research Situation of Transmitting and Decay of Infrared in the Atmosphere
7.2.1 The Empirical Study in the First Half of the 20th Century
7.2.2 The Theoretical Research in the Latter Half of 20th Century
7.3 The Atmosphere Absorption Principle of Electromagnetic Wave
7.4 Atmospheric Window Formula
7.5 Discussion
7.5.1 The Lateral Amplitude of Electromagnetic Wave
7.5.2 The Atmospheric Halo over the City
7.5.3 The Effect of Frequency and Vapour Content to the Transmittance of Electromagnetic Wave
7.5.4 Rotation Absorption and Emission of Molecules
7.6 Conclusions
Appendix A Oscillation and Sound Wave
A.1 Oscillation
A.1.1 Description of Simple Harmonic Motion
A.1.2 Energy in Simple Harmonic Motion
A.1.3 Damped Oscillations
A.1.4 Driven Oscillations and Resonance
A.2 Sound Wave
A.2.1 Plane Waves
A.2.2 Harmonic (Sinusoidal) Waves
Appendix B Introduction of Quantum Theory
B.1 Blackbody Radiation and Planck's Quantum Hypothesis
B.2 The Hypothesis of Light Quanta and the Photoelectric Effect
B.3 The Compton Effect by the Hypothesis of Light Quanta
B.4 Bohr Atom, Electron Wave
B.5 Wave Function
B.6 Quantum Particle in a Box
Appendix C 中文論文
Appendix D Fundamental Constants
1.1 Properties of Porous Absorptive Materials
1.1.1 Thick Porous Absorptive Materials
1.1.2 Curtains and Fabrics
1.2 Measurement of Sound Absorption Materials
1.3 Measurement Method and Apparatus of Air Permeability
and Yield Strength of Fiber Layer
1.3.1 Air Permeability
1.3.2 Yield Strength
Chapter 2 Introduction of Conventional Sound Absorption Theories
2.1 Sound Transmission of Porous Materials
2.1.1 Sound Transmission in the Round Pipe and Narrow Slit
2.1.2 Porous Sound Absorption Materials
2.2 Porous Sound Absorption Materials in Several Specific Cases
2.2.1 Sound Propagation in Porous Media
2.2.2 Sound Reduction due to Propagation through a Porous Material
2.2.3 Porous Sound Absorption Materials in Impedance Tube
2.2.4 Porous Materials with a Backing Cavity
2.2.5 Porous Liner Covered with a Limp Impervious Layer
2.2.6 Porous Liner Covered with a Perforated Sheet
2.2.7 Porous Liner Covered with a Limp Impervious Layer and a Perforated Sheet
Chapter 3 Sound Absorption Principle of Fibrous Materials
3.1 Introduction
3.2 Porous Material Sound Absorption Model
3.3 The Sound Energy Transmission Equation and Sound Absorption
Spectrum Formula of Porous Material
3.4 The Air Permeability and Peak Sound Absorption Coefficient
Formula of Porous Material
3.5 Sound Absorption Coefficient Formula of Porous Materials
3.6 Explanation of the Experimental Laws Quoted by the Literature
about Sound Absorption of Porous Materials
3.7 Conclusions
Chapter 4 The Quantum Phenomenon of Fabrics' Vapor Permeability
and Further Discussion about the Sound Absorption
Principle of Porous Material
4.1 The Quantum Change Rule of Fabrics' Vapor Permeability
4.1.1 Test Methods and Environment
4.1.2 Characteristics of Water Vapor Permeability of Fabrics
with Different Air Permeability and Similar Thickness
4.1.3 Characteristics of Water Vapor Permeability of the Fabrics
with Similar Air Permeability and Different Thickness
4.1.4 Changes of the Water Vapor Permeability of the Fabrics
with the Lapse of Time
4.1.5 Sum Up
4.2 Analyzing of the Sound Absorption Character of Porous
Material with Vapor Content
4.2.1 Resonance Sound Absorption Model of Densely Porous
Material
4.2.2 Analyzing of the Sound Absorption Character of Porous
Material with Vapor Content
4.3 Conclusions
Chapter 5 Dark Energy of Sound Wave and Universe
5.1 Introduction
5.2 The Negative and Quantum Energy of Sound Wave
5.2.1 The Interaction Principle of Sound Wave and Flexible Materials
5.2.2 The Negative Energy of Sound Wave
5.3 Analysis of Acoustic Waves and Cosmic Dark Energy
5.4 Conclusions
Chapter 6 The Wave Essence of Photon
6.1 Introduction
6.2 The Wave Theory of Photon's Essence
6.2.1 Deriving of the Photon Energy Equation with Classical
Wave Theory
6.2.2 Interpreting of the Compton Effect and Photoelectric
Effect By Classical Wave-Vibration Theory
6.2.3 Energy Transmission Equation of Light Wave to Electron
6.2.4 Phase Shift between Light Wave and Vibrator
6.2.5 Discussions
6.3 Conclusions
Chapter 7 Electromagnetic Wave Absorption Model of Atmosphere and Atmospheric Window Formula
7.I Introduction
7.2 The Research Situation of Transmitting and Decay of Infrared in the Atmosphere
7.2.1 The Empirical Study in the First Half of the 20th Century
7.2.2 The Theoretical Research in the Latter Half of 20th Century
7.3 The Atmosphere Absorption Principle of Electromagnetic Wave
7.4 Atmospheric Window Formula
7.5 Discussion
7.5.1 The Lateral Amplitude of Electromagnetic Wave
7.5.2 The Atmospheric Halo over the City
7.5.3 The Effect of Frequency and Vapour Content to the Transmittance of Electromagnetic Wave
7.5.4 Rotation Absorption and Emission of Molecules
7.6 Conclusions
Appendix A Oscillation and Sound Wave
A.1 Oscillation
A.1.1 Description of Simple Harmonic Motion
A.1.2 Energy in Simple Harmonic Motion
A.1.3 Damped Oscillations
A.1.4 Driven Oscillations and Resonance
A.2 Sound Wave
A.2.1 Plane Waves
A.2.2 Harmonic (Sinusoidal) Waves
Appendix B Introduction of Quantum Theory
B.1 Blackbody Radiation and Planck's Quantum Hypothesis
B.2 The Hypothesis of Light Quanta and the Photoelectric Effect
B.3 The Compton Effect by the Hypothesis of Light Quanta
B.4 Bohr Atom, Electron Wave
B.5 Wave Function
B.6 Quantum Particle in a Box
Appendix C 中文論文
Appendix D Fundamental Constants
