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Fundamentals of the Physics of Solids: Volume 1: Structure and Dynamics PDF

714 Pages·2007·5.16 MB·English
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18 VIIIA 2He21sHelium 10Ne262s2pNeon 18Ar263s3pArgon 36Kr10263d4s4pKrypton 54Xe10264d5s5pXenon 86Rn10265d6s6pRadon of elements 13 IIIA 14 IVA 15 VA 16 VIA 17 VIIA 5 6 7 8 9BCNOF21222324252s2p2s2p2s2p2s2p2s2pBoronCarbonNitrogenOxygenFluorine 1314151617AlSiPSCl 8 9 1021222324253s3p3s3p3s3p3s3p3s3p 6 VIB 7 VIIBVIIIB 11 IB 12 IIBAluminumSiliconPhosphorusSulfurChlorine 282930313233343524252627NiCuZnGaGeAsSeBrCrMnFeCo8210110210211022102310241025515262723d4s3d4s3d4s3d4s4p3d4s4p3d4s4p3d4s4p3d4s4p3d4s3d4s3d4s3d4sNickelCopperZincGalliumGermaniumArsenicSeleniumBromineChromiumManganeseIronCobalt 464748495051525342434445PdAgCdInSnSbTeIMoTcRuRh1010110210211022102310241025515271814d4d5s4d5s4d5s5p4d5s5p4d5s5p4d5s5p4d5s5p4d4s4d5s4d5s4d5sPalladiumSilverCadmiumIndiumTinAntimonyTelluriumIodineMolybdenumTechnetiumRutheniumRhodium 787980818283848574757677PtAuHgTlPbBiPoAtWReOsIr9110110210211022102310241025425262725d6s5d6s5d6s5d6s6p5d6s6p5d6s6p5d6s6p5d6s6p5d6s5d6s5d6s5d6sPlatinumGoldMercuryThalliumLeadBismuthPoloniumAstatineTungstenRheniumOsmiumIridium 110111106107108109DsRgSgBhHsMt91101425262726d7s6d7s6d7s6d7s6d7s6d7sDarmstadtiumRoentgeniumSeaborgiumBohriumHassiumMeitnerium 646566676869707160616263GdTbDyHoErTmYbLuNdPmSmEu712921021121221321421412425262724f5d6s4f6s4f6s4f6s4f6s4f6s4f6s4f5d6s4f6s4f6s4f6s4f6sGadoliniumTerbiumDysprosiumHolmiumErbiumThuliumYtterbiumLutetiumNeodymiumPromethiumSamariumEuropium 9697989910010110210392939495CmBkCfEsFmMdNoLrUNpPuAm71281210211212213214214123125262725f6d7s5f6d7s5f7s5f7s5f7s5f7s5f7s5f6d7s5f6d7s5f7s5f7s5f7sCuriumBerkeliumCaliforniumEinsteiniumFermiumNobeliumLawrenciumUraniumNeptuniumPlutoniumAmericiumMendelevium 1 IA 11HPeriodic table 11s 2 IIAHydrogen 3 42LiBe12[He] 2s1sLithiumBeryllium 11123NaMg12[Ne] 3s3s 3 IIIB 4 IVB 5 VBSodiumMagnesium 19202122234KCaScTiV12122232[Ar] 4s4s3d4s3d4s3d4sPotassiumCalciumScandiumTitaniumVanadium 37383940415RbSrYZrNb12122241[Kr] 5s5s4d5s4d5s4d5sRubidiumStrontiumYttriumZirconiumNiobium 55565772736CsBaLaHfTa12122232[Xe] 6s6s5d6s5d6s5d6sCesiumBariumLanthanumHafniumTantalum 8788891041057FrRaAcRfDb12122232[Rn] 7s7s6d7s6d7s6d7sFranciumRadiumActiniumRutherfordiumDubnium Lanthanoids5859CePr22324f6s4f6sCeriumPraseodymium 9091 ActinoidsThPa222126d7s5f6d7sThoriumProtactinium FundamentalsofthePhysicsofSolids Jeno˝ Sólyom Fundamentals of the Physics of Solids Volume I Structure and Dynamics Translated by Attila Piróth With240 Figuresand 50 Tables ABC Author ProfessorJeno˝ Sólyom ResearchInstituteforSolidStatePhysics andOptics P.O.Box49 1525Budapest Hungary and DepartmentofPhysics EötvösLorándUniversity 1117Budapest Pázmánysétány1/A Hungary [email protected] Translator AttilaPiróth www.pirothattila.com TitleoftheHungarianedition:AModernSzilárdtestfizikaAlapjaiI.Aszilárdtestek szerkezeteésdinamikája,ISBN9634635385,(cid:2)cELTEEötvösKiadó2002 LibraryofCongressControlNumber:2007929725 ISBN978-3-540-72599-2 SpringerBerlinHeidelbergNewYork Thisworkissubjecttocopyright. Allrightsarereserved, whetherthewholeorpartofthematerialis concerned,specificallytherightsoftranslation,reprinting,reuseofillustrations,recitation,broadcasting, reproductiononmicrofilmorinanyotherway,andstorageindatabanks.Duplicationofthispublication orpartsthereofispermittedonlyundertheprovisionsoftheGermanCopyrightLawofSeptember9, 1965,initscurrentversion,andpermissionforusemustalwaysbeobtainedfromSpringer.Violations areliableforprosecutionundertheGermanCopyrightLaw. SpringerisapartofSpringerScience+BusinessMedia springer.com (cid:2)c Springer-VerlagBerlinHeidelberg2007 Theuseofgeneraldescriptivenames,registerednames,trademarks,etc.inthispublicationdoesnotimply, evenintheabsenceofaspecificstatement,thatsuchnamesareexemptfromtherelevantprotectivelaws andregulationsandthereforefreeforgeneraluse. Typesetting:bytheauthor,thetranslator,andIntegra,IndiausingaSpringerLATEXmacropackage Coverdesign:F.Steinen,eStudioCalamar,Girona/Spain. Printedonacid-freepaper SPIN:11429470 543210 To Márta, Gyöngyvér, Tünde, and lringó Preface The reader is holding the first volume of a three-volume textbook on solid- state physics. This book is the outgrowth of the courses I have taught for many years at Eötvös University, Budapest, for undergraduate and graduate studentsunderthetitlesSolid-State Physics andModern Solid-State Physics. The main motivation for the publication of my lecture notes as a book was that none of the truly numerous textbooks covered all those areas that I felt should be included in a multi-semester course. Especially, if the course strives to present solid-state physics in a unified structure, and aims at dis- cussing not only classic chapters of the subject matter but also (in more or less detail) problems that are of great interest for today’s researcher as well. Besides, the book presents a much larger material than what can be covered in a two- or three-semester course. In the first part of the first volume the analysis of crystal symmetries and structure goes into details that certainly cannotbe includedinausualcourseonsolid-statephysics.Thesameapplies, among others, to the discussion of the methods used in the determination of bandstructure,thepropertiesofFermiliquidsandnon-Fermiliquids,andthe theory of unconventional superconductors in the second and third volumes. Thesepartscanbeassignedassupplementaryreadingforinterestedstudents, or can be discussed in advanced courses. The line of development and the order of the chapters are based on the prerequisites for understanding each part. Therefore a gradual shift can be observedinthestyleofthebook.While theintermediatestepsofcalculations arepresentedinconsiderabledetailandexplanationsarealsomorelengthyin the first and second volumes, they are much sparser and more concise in the thirdone,thusthisvolumereliesmoreontheindividualworkofthestudents. Onaccountoftheprerequisites,certaintopicshavetoberevisited.Thisiswhy magnetic properties are treated in three, and superconductivity in two parts. The magnetism of individual atoms is presented in an introductory chapter. Thestructureanddynamicsofmagneticallyorderedsystemsbuiltupoflocal- izedmomentsarebestdiscussedafterlattice vibrations,alongthe samelines. Magnetismisrevisitedinthethirdvolume,wheretheroleofelectron–electron VIII Preface interactions is discussed in more detail. Similarly, the phenomenological de- scription of superconductivity is presented after the analysis of the transport propertiesofnormalmetals,incontrasttothem,whilethemicroscopictheory is outlined later, when the effects of interactions are discussed. Separating the material into three similar-sized volumes is a necessity in view of the size ofthe material– but it also reflects the internallogicalstruc- ture of the subject matter. At those universities where the basic course in solid-state physics runs for three semesters working through one volume per semesterisanaturalschedule.Inthiscasethediscussionoftheelectrongas– whichistraditionallypartoftheintroduction–isleftforthesecondsemester. Thischoiceisparticularlysuitedtocurriculainwhichthecourseonsolid-state physics is held parallel with quantum mechanics or statistical physics. If the lecturer feels more comfortable with the traditional approach, the discussion of the Drude model presented in the second volume can be moved to the be- ginning of the whole course. Nevertheless the discussion of the Sommerfeld model should be postponed until students have familiarized themselves with the fundamentals of statistical physics. For the same reasonthe lecturer may prefer to change the order of other chapters as well. Apart from the presen- tation of the consequences of translational symmetry, the topics discussed in Chapters 3, 4, and 6 can be deferred to a later time, when students have acquired a sound knowledge of quantum mechanics, atomic, and molecular physics.The consequencesoftranslationalsymmetrycanalsobe analyzedaf- ter the discussionofphonons.Allthis is,to a largeextent,up to the personal preferences of the lecturer. In presenting the field of solid-state physics, special emphasis has been laid on discussing the physical phenomena that can be observed in solids. Nevertheless I have tried to give – or at least outline – the theoretical inter- pretation for each phenomenon, too. As is common practice for textbooks, I have omitted precise references that would give the publication data of the discussed results. I have made exceptions only for figures taken directly from published articles. At the end of the first, introductory chapter I have given a list of textbooks and series on solid-state physics, while at the end of each subsequent chapter I have listed textbooks and review articles that present further details and references pertaining to the subject matter of the chapter in question. Bulky as it might be, this three-volume treatise presents only the funda- mentals of solid-state physics. Today, when articles about condensed matter physics fill tens of thousands of pages every year in Physical Review alone, it would be obviously overambitiousto aim at more. Therefore,building on the foundationspresentedinthis book students willhaveto acquireasubstantial amount of extra knowledge before they can understand the subtleties of the topicsintheforefrontoftoday’sresearch.Neverthelessattheendofthethird volume students will also appreciate the number of open questions and the necessity of further research. Preface IX A certain knowledge of quantum mechanics is a prerequisite for studying solid-statephysics.Varioustechniquesofquantummechanics–aboveallfield- theoretical methods and methods employed in solving many-body problems – play an important role in present-day solid-state physics. Some essential detailsarelistedinoneoftheappendicesofthethirdvolume,however,Ihave omitted more complicated calculations that would have required the applica- tion of the modern apparatus of many-body problems.This is especially true for the third volume, where central research topics of present-day solid-state physics are discussed, in which the theoretical interpretation of experimen- tal results is often impossible without some extremely complex mathematical formulation. The selection of topics obviously bears the stamp of the author’s own re- search interest, too. This explains why the discussion of certain important fields–suchasthemechanicalpropertiesofsolids,surfacephenomena,amor- phoussystemsormesoscopicsystems,tonamebutafew–havebeenomitted. I have used the International System of Units (SI), and have given the equationsofelectromagnetisminrationalizedform.Nonrationalizedequations as well as gaussian CGS (and other) units are nevertheless still very much in useinthe solid-statephysicsliterature.Thishasbeenindicatedattheappro- priateplaces.OnafewoccasionsIhavealsogiventheformulasobtainedfrom nonrationalizedequations. In addition to the fundamental physical constants used in solid-state physics, the commonest conversion factors are also listed in Appendix A. Only once have I deviated from standard practice, denoting Boltzmann’s constant by k instead of k – reserving the latter for the wave B number, which plays a central role in solid-state physics. To give an impression of the usual values of the quantities occurring in solid-statephysics,typicalcalculatedvaluesormeasureddataareoftentabu- lated.Toprovidethemostprecisedataavailable,IhavereliedontheLandolt– Börnstein series, the CRC Handbook of Chemistry and Physics, and other renowned sources. Since these data are for information only, I have not indi- cated either their error or in many cases the measurement temperature, and I have not mentioned when different measurement methods lead to slightly disparate results. As a rule of thumb, the error is usually smaller than or on the order of the last digit. I would like to thank all my colleagues who read certain chapters and improved the text through their suggestions and criticism. Particular thanks go to professors György Mihály and Attila Virosztek for reading the whole manuscript. In spite of all efforts, some mistakes have certainly remained in the book. Obviously, the author alone bears the responsibility for them. Special thanks are due to Károly Härtlein for his careful work in draw- ing the majority of the figures. The figures presenting experimental results are reproduced with the permission of the authors or the publishers. M. C. Escher’s drawings in Chapter 5 are reproduced with the permission of the copyrightholder©2006The M.C.EscherCompany-Holland.The challenge

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This book is the first of a three-volume series written by the same author that aims to deliver a comprehensive and self-contained account of the vast field of solid-state physics. It goes far beyond most classic texts in the presentation of the properties of solids and experimentally observed pheno
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