光电子光谱学原理和应用(Photoelectron spectroscopy),第3版

发布:cyqdesign 2010-03-26 18:43 阅读:7248
电子谱技术是研究原子、分子、固体和表面电子结构的一种非常有效的手段。本书全面系统地介绍了光电子谱技术的原理和应用,并简明讨论了逆光发射、自旋极化光发射和光电子衍射等现象。本书是一本非常实用的光电子谱技术的专著,内容几乎覆盖了光电子研究的所有领域。其特点是紧密联系实验,并利用理论详细解释实验结果,达到理论和应用的有机结合。书中还收集了大量的实际材料的光电子谱分析,同时给出了大量的实验数据,以便于读者的查阅。总之,该书既是一本很有价值的参考书,又可作为初学者的入门教材。    3@n>*7/E  
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作者在该领域做出了杰出的贡献。在第3版中,作者介绍了大量最新研究成果,并对光电子谱技术很多方面给出了有深刻见解的讨论。    9e U[*S  
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读者对象:适用于凝聚态物理学、材料物理学和光电子学等专业的高年级本科生、研究生和相关专业的科研人员。 muW!xY  
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市场价:¥88.00 ^Cv^yTj;&  
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目录 mfny4R1_  
1. Introduction and Basic Principles ?8, %LIQ?  
1.1 Historical Development \uG`|D n  
1.2 The Electron Mean Free Path l$*=<tV  
1.3 Photoelectron Spectroscopy and Inverse Photoelectron Spectroscopy pbHsR^  
1.4 Experimental Aspects xw<OLWW  
1.5 Very High Resolution }%TSGC4{  
1.6 The Theory of Photoemission fWGOP~0  
1.6.1 Core-Level Photoemission S>q>K"j^!  
1.6.2 Valence-State Photoemission c~ <1':  
1.6.3 Three-Step and One-Step Considerations nsb4S {  
1.7 Deviations from the Simple Theory of Photoemission *FR$vLGn  
References MYe HS   
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2. Core Levels and Final States ":Edu,6O  
2.1 Core-Level Binding Energies in Atoms and Molecules 'rb'7=z5  
2.1.1 The Equivalent-Core Approximation O)R(==P26P  
2.1.2 Chemical Shifts wyxGe<1  
2.2 Core-Level Binding Energies in Solids ;oH ,~|K  
2.2.1 The Born-Haber Cycle in Insulators iO1nwl !#  
2.2.2 Theory of Binding Energies i;PL\Er:tX  
2.2.3 Determination of Binding Energies and Chemical Shifts from Thermodynamic Data 4y}"Hy  
2.3 Core Polarization MVCl.o  
2.4 Final-State Multiplets in Rare-Earth Valence Bands $mA5@O~C5\  
2.5 Vibrational Side Bands Vy G4(X va  
2.6 Core Levels of Adsorbed Molecules ^4v*W;Q  
2.7 Quantitative Chemical Analysis from Core-Level Intensities {}>n{_  
References aaWJ* >rJ  
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3. Charge-Excitation Final States: Satellites ps:f=6m2  
3.1 Copper Dihalides; 3d Transition Metal Compounds ]r]k-GZ$  
3.1.1 Characterization of a Satellite Lp:6 ;  
3.1.2 Analysis of Charge-Transfer Satellites M] V.!z9B  
3.1.3 Non-local Screening Bz2'=~J  
3.2 The 6-eV Satellite in Nickel ;/AG@$)  
3.2.1 Resonance Photoemission > ^[z3T  
3.2.2 Satellites in Other Metals BRG|Asg(  
3.3 The Gunnarsson-Sch6nhammer Theory @nV5.r0W}B  
3.4 Photoemission Signals and Narrow Bands in Metals `BZ&~vJ_  
References 0>6DSQq~t(  
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4. Continuous Satellites and Plasmon Satellites: XPS Photoemission in Nearly Free Electron Systems MN;/*t  
4.1 Theory }ZZ5].-a<D  
4.1.1 General ^ DAa%u  
4.1.2 Core-Line Shape eo#^L}  
4.1.3 Intrinsic Plasmons @fn6<3  
4.1.4 Fxtrinsic FAectron Scattering: Plasmons and Background zz$q5[n  
4.1.5 The Total Photoelectron Spectrum \X}8 q  
4.2 Experimental Results Ln#a<Rx.E7  
4.2.1 The Core Line Without Plasmons GSVdb/+  
4.2.2 Core-Level Spectra Including Plasmoas rE!1wc>L  
4.2.3 Valence-Band Spectra of the Simple Metals msTB'0  
4.2.4 Simple Metals: A General Comment 9|:^k.  
4.3 The Background Correction [!*xO?yCJ  
References M7y|EB))  
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5. Valence Orbitals in Simple Molecules and Insulating Solids !DjT<dxf  
5.1 UPS Spectra of Monatomic Gases cHvF*A  
5.2 Photoelectron Spectra of Diatomic Molecules CSn<]%GL  
5.3 Binding Energy of the H2 Molecule j=sBq.S  
5.4 Hydrides Isoelectronic with Noble Gases CUmH,`hu  
Neon (Ne) &&RA4  
Hydrogen Fluoride (HF) KHj6Tg;)  
Water (H2O) ~\_T5/I%  
Ammonia (NH3) U1m\\<,  
Methane (CH4) ^o<[. )  
5.5 Spectra of the Alkali HMides $@[)nvV\  
5.6 Transition Metal Dihalides r:l96^xs  
5.7 Hydrocarbons pz}mF D&[  
5.7.1 Guidelines for the Interpretation of Spectra from Free Molecules ,a(O`##Bn  
5.7.2 Linear Polymers ?g  }kb  
5.8 Insulating Solids with Valence d Electrons nX x=1*X  
5.8.1 The NiO Problem ;lfWu U%R  
5.8.2 Mort Insulation !ng\` |8?  
5.8.3 The Metal-Insulator Transition;the Ratio of the Correlation Energy and the Bandwidth;Doping J 3?Dj  
5.8.4Band Structures of Transition Metal Compounds #Q6w+"  
5.9 High—Temperature Superconductors L~0& Q  
5.9.1valence-Band Electronic Structure;Polycrystalline Samples :k"rhI  
5.9.2 Dispersion Relations in High Temperature Superconductors;Single Crystals [ #]jC[  
5.9.3 The Superconducting Gap %O) Z  
5.9.4 Symmetry of the Order Parameter in the High-Temperature SuDerconductors _-a|VTM  
5.9.5 Core—Level Shifts Yw"P)Zp  
5.10 The Fermi Liquid and the Luttinger Liquid ckwF|:e 7*  
5.11 Adsorbed Molecules ?n*fy  
5.11.1 Outline hLA;Bl  
5.11.2 CO on Metal Surfaces !UNNjBBP7  
References Wvr+y!F  
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6.Photoemission of Valence Electrons froill Metallic Solids in the OHe-Electron Approximation zO2{.4  
6.1 Theory of Photoemission:A Summary of the Three-Step Model x0x $  9  
6.2 Discussion of the Photocurrent 0$Ff#8  
6.2.1 Kinematics of Internal Photoemission in a Polycrystalline Sample K\sbt7~  
6.2.2 Primary and Secondary Cones in the Photoemission from a Real Solid u6_jnZGB  
6.2.3 Angle-Integrated and Angle-Resolved Data Collection %Dyh:h   
6.3 Photoemission from the Semi—infinite Crystal:The Inverse LEED Formalism l P0k:  
6.3.1 Band Structure Regime r{"uv=,`  
6.3.2 XPS Regime UH40~LxIma  
6.3.3 Surface Emission *)%dXVf  
6.3.4 One-Step Calculations ONWO`XD  
6.4 Thermal Effects y&rY0bm  
6.5 Dipole Selection Rules for Direct Optical Transitions M.k|bh8  
References 6lU|mJ`M  
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7.Band Structtire and Angular-Resolved Photoelectron Spectra A+2oh3  
7.1 Free-Electron Final—State Model )k%M.{&bji  
7.2 Methods Employing Calculated Band Structures n0FYfqH  
7.3 Methods for the Absolute Determination of the Crystal Momentum B!`\L!  
7.3.1 Triangulation or Energy Coincidence Method <JH9StGGc?  
7.3.2 Bragg Plane Method: Variation of External Emission Angle at Fixed Photon Frequency (Disappearance/Appearance Angle Method `@\^m_!}  
7.3.3 Bragg Plane Method: Variation of Photon Energy at Fixed Emission Angle (Symmetry Method) 8nu> gA  
7.3.4 The Surface Emission Method and Electron Damping %MNk4UsV  
7.3.5 The Very-Low-Energy Electron Diffraction Method RUc\u93n  
7.3.6 The Fermi Surface Method TolrEcI  
7.3.7 Intensities and Their Use in Band-Structure Determinations <UK5eVQn  
7.3.8 Summary V85.DK!  
7.4 Experimental Band Structures Y UZKle  
7.4.1 One- and Two-Dimensional Systems \*9Ua/H  
7.4.2 Three-Dimensional Solids: Metals and Semiconductors &<{}8/x8(  
7..4.3UPS Band Structures and XPS Density of States =+(Q.LmhC  
7.5 A Comment 6 5"uD7;  
References &?}1AQAYg  
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8.Surface States, Surface Effects =BW9/fG  
8.1 Theoretical Considerations 7<4xtK`+b  
8.2 Experimental Results on Surface States M\jB)@)  
8.3 Quantum-Well States $P_x v  
8.4 Surface Core-Level Shifts LO}z)j~W  
References 1w) fu  
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9.Inverse Photoelectron Spectroscopy p  .aE  
9.1 Surface States M%;"c?g  
9.2 Bulk Band Structures , #Ln/;  
9.3 Adsorbed Molecules |P~q/Wff  
References Avd *~  
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10. Spin-Polarized Photoelectron Spectroscopy  L,%Z9  
10.1 General Description 2moIgJ   
10.2 Examples of Spin-Polarized Photoelectron Spectroscopy $ %;jk  
10.3 Magnetic Dichroism ytob/tc  
References W%H]Uyt  
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11. Photoelectron Diffraction VB's  
11.1 Examples :OX$LCi  
11.2 Substrate Photoelectron Diffraction GM77Z.Y  
11.3 Adsorbate Photoelectron Diffraction .CvFE~  
11.4 Fermi Surface Scans +qZc} 7rJF  
References PgTDjEo  
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Appendix m/KjJ"s,  
A.1 Table of Binding Energies _Z0\`kba+  
A.2 Surface and Bulk Brillouin Zones of the Three Low-Index Faces of a Face—Centered Cubic(fcc)Crystal Face ' me:Zd  
A.3 Compilation of Work Functions {[N?+ZJD*L  
References |thad!?  
Index
关键词: 光电子光谱
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最新评论

huiyu1981 2010-03-27 07:56
卖书,感谢楼主资源。
kcjkcj 2010-06-16 11:00
感谢楼主资源。
伯爵之光 2011-01-23 13:36
怎么没有详细介绍呢 gZ1N&/9;  
saiqi2011 2011-04-06 17:40
好书啊,支持下
yanpengfu 2011-04-12 20:49
有电子版么
余建 2014-07-19 16:48
holographic
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