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定 價:198 元
- 作者:鄭能武著
- 出版時間:2023/6/1
- ISBN:9787547861981
- 出 版 社:上?茖W技術出版社
- 中圖法分類:O641.12
- 頁碼:
- 紙張:膠版紙
- 版次:
- 開本:16開
系統(tǒng)詳盡地介紹了一種新的量子理論最弱受約束電子理論(WBE Theory)。闡明如何從逐級電離和全同粒子角度,將體系哈密頓算符劃分成單電子哈密頓算符的兩種等效方法;如何從給定的解析式,嚴格求解單電子薛定諤方程,得到能量和波函數的解析表達式;如何處理分子問題等。用大量示例展現(xiàn)該理論在物理學、化學、材料科學中的應用,以表明其準確性、簡便性和普適性,并指出未來的研究方向和前景
國人首次提出并建立的一種新的量子理論,已用于原子性質的計算和指導配位聚合物的分子設計
The appearance of things is complicated, but the essence is simple. It has beenapproved by many scientific theorems, rules, principles and theories. The authoralways adheres to this idea in order to reach the essence of things during the construc-tion of Weakest Bound Electron Theory (WBE Theory)and the writing of thisbook. The author introduced the idea of the weakest bound electron into theoreticalchemistry, and constructed the WBE theory based on the wave-particle duality. It notonly satisfies the requirements for the indistinguishability of identical particles andPauli Exclusion Principle, but also underlines the properties of single particle andprovides a theoretical basis for approximate separability between particles. Hydrogen, one of the single-electron systems which are exactly soluble inquantum mechanics, has an electron which is the weakest bound electron in itssystem; therefore, it should be included in the theory. It is very difficult to incorporate the wave-particle duality into the quantum theoryofelectron structures,and re-produce the properties and rules of atoms and molecules.This has been indicated by the establishment and development of all kinds of quantumtheories and methods. Although currently the WBE theory and applications are justa framework, there is no doubt that it not only has to include, expand and improvethe achievements from all available quantum theories and methods, but also makecommunications between different theories and methods based on wave-particleduality. The author hopes that the WBE theory would bring new information and makecontributions for the development and application of quantum theory. Thanks to the students in my laboratory. They not only give me the joy ofworking together, but also make contributions to the development and applicationof the theory. Thank the older generation of scientists and friends for their helpin my research. They are Mr. Ao-Qing Tang(唐敖慶,Academician of ChineseAcademy of Sciences), Mr. Guang-Xian Xu(徐光憲,Academician of ChineseAcademy of Sciences),Mr.Le-Min Li(黎樂民, Academician of Chinese Academy ofSciences),Prof. Ke-Min Yao(姚克敏,Zhejiang University), Prof.Xiang-Lin Zhang(張祥林,Central South University), Prof.Qian-Shu Li(李前樹,Beijing University of Technology), Prof. Yao-Quan Chen(陳耀全, Chinese Academy of Sciences),Prof. Xiao-Yin Hong(洪嘯吟,Tsinghua University), Prof.Han-Bao Feng (馮漢保,National Natural Science Foundation of China), Prof.Xiang-Lin Jin(金祥林,PekingUniversity), Prof.Jia-Ju Zhou(周家駒, Chinese Academy of Sciences) and Rui-ShuWang(王瑞書, Editor-in-chief of Jiangsu Phoenix Education Publishing House).Thank Ms. Zhe-Feng Gao(高哲峰) and other staffs from the University of Scienceand Technology of China Press for their effort to make this book publish. Finally, Iam deeply grateful to my parents, my wife You-Xian Xu(徐幼仙) and children fortheir love, support and assistance. Hefei, China Neng-Wu Zheng
鄭能武:北京大學化學系本科畢業(yè)(學制六年)。中國科技大學理論化學和無機化學教授、博士生導師,享受國務院政府特殊津貼,執(zhí)教41年。主要貢獻有:首次提出新的量子理論(WBE Theory),發(fā)現(xiàn)元素電離能差分定律。出版中英文專著3部,合著、合譯、合編教材和教學參考書5部,撰寫科普書4部。在國內外學術期刊發(fā)表論文百余篇,其中,發(fā)在外刊上的論文(計73篇)全部被SCI收入。曾任中國科技大學應用化學系系主任、校學術委員會委員、校學位委員會委員。曾以教授身份應邀訪問美國普渡(Purdue)大學。曾任Malaysian Journal Chemistry國際顧問委員會委員。
1 The Basics of Quantum Mechanics for the Weakest BoundElectron(WBE)Theory 1 11 The Wave-Particle Duality 1 12 The Uncertainty Principle 1 13 The Schrodinger Equation 3 14 Electron Spin and Spin Orbital [3,6-8]6 15 The Indistinguishability of Micro Identical Particles 9 16 Pauli Exclusion Principle and Periodic Table 10 17 One of the Approximation Methods in Quantum MechanicsThe Variation Method 14 References 18 2 The Weakest Bound Electron Theory(1)21 21 The Concept of the Weakest Bound Electron 21 22 Ionization Process and Aufbau-Like Process is Reversible 23 23 The One-Electron Hamiltonian for the Weakest Bound Electron 26 231The Non-Relativistic One-Electron Hamiltonian for the Weakest Bound Electron 26 232 The Treatment of Magnetic Interaction Between Electrons 30 233 Relativistic Hamiltonian 31 24 The One-Electron Schrodinger Equation of the Weakest Bound Electron 33 25 The Key Points of the WBE Theory 35 References 35 3 The Weakest Bound Electron Theory (2)37 31 Potential Function37 32 The Solution of the Radial Equation 39 321Spherical Harmonic 39 322 Generalized Laguerre Functions 42 323 Restore the Form of Hydrogen and Hydrogen-Like Atoms 47 324 The Definition and Properties of Generalized Laguerre Functions 48 325 The Proof of the Satisfaction of Hellmann-Feynman Theorem54 33 Matrix Element and Mean Value of Radial Operator rk 56 34 The Exact Solutions of Scattering States in WBEPM Theory 58 35 The Formula for the Calculation of Fine Structure 60 36 Calculation of Spin-Orbit Coupling Coefficient 61 37 Relation Between the WBEPM Theory and Slater-Type Orbitals 62 References 66 4 The Application of the WBE Theory 69 41 Ionization Energy [1-10] 69 411Introduction 69 412 Iso-spectrum-level Series and the Differential Law of Ionization Energy in the Series 76 413 Calculation of Ionization Energy 86 414 The Successive Ionization Energies of the 4f Electrons for the Lanthanides [10]91 42 Energy Level [39-50] 96 421 Introduction 96 422 Formulae for Calculating Energy Levels 99 423 Methods for Parameter Characterization 101 424 Examples 107 43 Calculation of Oscillator Strength, Transition Probability and Radiative Lifetime [88-104]129 431Introduction129 432 Theory and Method for Calculation 131 433 Examples 135 44 Calculation of Total Electron Energy [1,159,160] 155 441 Calculation of Total Electron Energy of the SystemUsing Ionization Energy 157 442 Variational Treatment on the Energy of the He-Sequence Ground State with the WBEPTheory 158 443 Perturbation Treatment on the Energy of the He-Sequence Ground State with the WBEPMTheory [160] 176 45 Electronegativity, Hard and Soft Acids and Bases, and the Molecular Design of Coordination Polymers 179 451 The Electronegativity Concept and Scale 179 452 The Nuclear Potential Scale of the Weakest Bound Electron [185,200] 180 453 The Hard-Soft-Acid-Base Concept and Scale 185 454 Molecular Design of Coordination Polymers 188 References 196 Representation Publications 207 Postscript 211 Index 213
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