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Relativistic Dynamics of a Charged Sphere: Updating the Lorentz-Abraham Model PDF

167 Pages·2006·1.64 MB·English
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Lecture Notes in Physics EditorialBoard R.Beig,Wien,Austria W.Beiglböck,Heidelberg,Germany W.Domcke,Garching,Germany B.-G.Englert,Singapore U.Frisch,Nice,France P.Hänggi,Augsburg,Germany G.Hasinger,Garching,Germany K.Hepp,Zürich,Switzerland W.Hillebrandt,Garching,Germany D.Imboden,Zürich,Switzerland R.L.Jaffe,Cambridge,MA,USA R.Lipowsky,Golm,Germany H.v.Löhneysen,Karlsruhe,Germany I.Ojima,Kyoto,Japan D.Sornette,Nice,France,andLosAngeles,CA,USA S.Theisen,Golm,Germany W.Weise,Garching,Germany J.Wess,München,Germany J.Zittartz,Köln,Germany TheLectureNotesinPhysics TheseriesLectureNotesinPhysics(LNP),foundedin1969,reportsnewdevelopments in physics research and teaching – quickly and informally, but with a high quality and theexplicitaimtosummarizeandcommunicatecurrentknowledgeinanaccessibleway. Bookspublishedinthisseriesareconceivedasbridgingmaterialbetweenadvancedgrad- uatetextbooksandtheforefrontofresearchtoservethefollowingpurposes: •tobeacompactandmodernup-to-datesourceofreferenceonawell-definedtopic; •toserveasanaccessibleintroductiontothefieldtopostgraduatestudentsandnonspe- cialistresearchersfromrelatedareas; • to be a source of advanced teaching material for specialized seminars, courses and schools. Both monographs and multi-author volumes will be considered for publication. Edited volumes should, however, consist of a very limited number of contributions only. Pro- ceedingswillnotbeconsideredforLNP. Volumes published in LNP are disseminated both in print and in electronic formats, the electronic archive is available at springerlink.com. The series content is indexed, abstracted and referenced by many abstracting and information services, bibliographic networks,subscriptionagencies,librarynetworks,andconsortia. ProposalsshouldbesenttoamemberoftheEditorialBoard,ordirectlytothemanaging editoratSpringer: Dr.ChristianCaron SpringerHeidelberg PhysicsEditorialDepartmentI Tiergartenstrasse17 69121Heidelberg/Germany [email protected] Arthur D. Yaghjian Relativistic Dynamics of a Charged Sphere Updating the Lorentz-Abraham Model 2ndedition ABC Author ArthurD.Yaghjian VisitingScientist HanscomAirForceBase MA,01731-5000,USA Email:[email protected] ArthurD.Yaghjian,RelativisticDynamicsofaChargedSphere,2nded., Lect.NotesPhys.686(Springer,NewYork2006),DOI10.1007/b98846 LibraryofCongressControlNumber:2005925981 FirsteditionpublishedasLectureNotesinPhysics:Monographs,Vol.11,1992. ISSN0075-8450 ISBN-10 0-387-26021-8 ISBN-13 978-0-387-26021-1 Printedonacid-freepaper (cid:1)c2006SpringerScience+BusinessMedia,Inc. Allrightsreserved.Thisworkmaynotbetranslatedorcopiedinwholeorinpartwithoutthewritten permissionofthepublisher(SpringerScience+BusinessMedia,Inc.,233SpringStreet,NewYork,NY 10013,USA),exceptforbriefexcerptsinconnectionwithreviewsorscholarlyanalysis.Useinconnection withanyformofinformationstorageandretrieval,electronicadaptation,computersoftware,orbysimilar ordissimilarmethodologynowknownorhereafterdevelopedisforbidden.Theuseinthispublicationof tradenames,trademarks,servicemarksandsimilarterms,eveniftheyarenotidentifiedassuch,isnotto betakenasanexpressionofopinionastowhetherornottheyaresubjecttoproprietaryrights. PrintedintheUnitedStatesofAmerica 9 8 7 6 5 4 3 2 1 springeronline.com To LUCRETIA Foreword This is a remarkable book. Arthur Yaghjian is by training and profession an electricalengineer;buthehasadeepinterestinfundamentalquestionsusually reserved for physicists. He has studied the relevant papers of an enormous literaturethataccumulatedforlongerthanacentury.Theresultisafreshand novel approach to old problems providing better solutions and contributing to their understanding. Physicists since Lorentz in the late nineteenth century have looked at the equations of motion of a charged object primarily as a description of a fundamental particle, typically the electron. Since the limitations of classical physicsduetoquantummechanicshavelongbeenknown,Yaghjianconsidersa macroscopicobject,asphericalinsulatorwithasurfacecharge.Hethusavoids thepitfallsthathavemisguidedresearchinthefieldsinceDirac’sfamouspaper of 1938. The first edition of this book, published in 1992, was an apt tribute to the centennial of Lorentz’s seminal paper of 1892 in which he first proposed theextendedmodeloftheelectron.Inthepresentsecondedition,attentionis also paid to very recent work on the equation of motion of a classical charged particle.Mathematicalapproximationsforspecificapplicationsareclearlydis- tinguished from the physical validity of their solutions. It is remarkable how theseresultscallforempiricaltestsyettobeperformedatthenecessarilyex- tremeconditionsandwithsufficientlyhighaccuracy.Intheseimportantways, thepresentbookthusrevivesinterestintheclassicaldynamicsofchargedob- jects. Syracuse University Fritz Rohrlich 2005 Preface to the Second Edition Chapters 1 through 6 and the Appendices in the Second Edition of the book remain the same as in the First Edition except for the correction of a few typographical errors, for the addition and rewording of some sentences, and for the reformatting of some of the equations to make the text and equations read more clearly. A convenient three-vector form of the equation of motion hasbeenaddedtoChapter7thatisusedinexpandedsectionsofChapter7on hyperbolic and runaway motions, as well as in Chapter 8. Several references and an index have also been added to the Second Edition of the book. The method used in Chapter 8 of the First Edition for eliminating the noncausal pre-acceleration from the equation of motion has been generalized in the Second Edition to eliminate pre-deceleration as well. The generalized method is applied to obtain the causal solution to the equation of motion of a charge accelerating in a uniform electric field for a finite time interval. Alternative derivations of the Landau-Lifshitz approximation to the Lorentz- Abraham-Dirac equation of motion are also given in Chapter 8 along with Spohn’s elegant solution of this approximate equation for a charge moving in a uniform magnetic field. A necessary and sufficient condition is found for this Landau-Lifshitz approximation to be an accurate solution to the exact Lorentz-Abraham-Dirac equation of motion. Many of the additions that have been made to the Second Edition of the book have resulted from illuminating discussions with Professor W.E. Baylis of the University of Windsor, Professor Dr. H. Spohn of the Technical Uni- versityofMunich,andProfessorEmeritusF.RohrlichofSyracuseUniversity. Dr. A. Nachman of the United States Air Force Office of Scientific Research supportedandencouragedmuchoftheresearchthatledtotheSecondEdition of the book. Concord, Massachusetts Arthur D. Yaghjian 2005

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"This is a remarkable book. […] A fresh and novel approach to old problems and to their solution." –Fritz Rohrlich, Professor Emeritus of Physics, Syracuse UniversityThis book takes a fresh, systematic approach to determining the equation of motion for the classical model of the electron introdu
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