Verfügbarkeit: Springer Handbook of Spacetime

Springer Handbook of Spacetime:

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Weitere Verfasser:	Ashtekar, Abhay 1949- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin Springer 2014
Schlagworte:	Raum-Zeit
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXVI, 887 S. Ill., graph. Darst. 242 mm x 193 mm
ISBN:	9783642419911 3642419917

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Datensatz im Suchindex

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adam_text	CONTENTS LIST OF ABBREVIATIONS XXIII PART A INTRODUCTION TO SPACETIME STRUCTURE 1 FROM /ETHER THEORY TO SPECIAL RELATIVITY RAFAEL FERRARO 3 1.1 SPACE AND TIME IN CLASSICAL MECHANICS K 1.2 RELATIVITY IN CLASSICAL MECHANICS 6 1.3 THE THEORY OF LIGHT AND ABSOLUTE MOTION 8 L.H EINSTEIN'S SPECIAL RELATIVITY 13 1.5 RELATIVISTIC MECHANICS 19 1.6 CONCLUSION 23 REFERENCES 2^ 2 THE HISTORICAL ORIGINS OF SPACETIME SCOTT WALTER 27 2.1 POINCARE'S THEORY OF GRAVITATION 27 2.2 MINKOWSKI'S PATH TO SPACETIME 30 2.3 SPACETIME DIAGRAMS 3^ REFERENCES 37 3 RELATIVITY TODAY NICK M.J. WOODHOUSE 39 3.1 OPERATIONAL DEFINITIONS *0 3.2 LORENTZ TRANSFORMATIONS IN TWO DIMENSIONS ^3 3.3 INERTIA! COORDINATES IN FOUR DIMENSIONS K6 3M VECTORS W 3.5 PROPER TIME 52 3.6 FOUR-ACCELERATION 53 3.7 VISUAL OBSERVATION 5^ 3.8 OPERATIONAL DEFINITION OF MASS 56 3.9 MAXWELL'S EQUATIONS 58 REFERENCES 60 ACCELERATION AND GRAVITY: EINSTEIN'S PRINCIPLE OF EQUIVALENCE LEWIS RYDER 61 ^.1 PROLOGUE 61 H.7 THE ROLE OF THE EQUIVALENCE PRINCIPLE IN GENERAL RELATIVITY 61 ^.3 EXPERIMENTAL TESTS -. 6^ U.K RELATIVISTIC DEFINITION OF ACCELERATION 65 K.5 ACCELERATING FRAME IN MINKOWSKI SPACETIME 67 - ^.6 CONCLUDING REMARKS 69 REFERENCES 69 HTTP://D-NB.INFO/1042811407 5 THE GEOMETRY OF NEWTON'S AND EINSTEIN'S THEORIES GRAHAM S. HALL 71 5.1 GUIDE TO CHAPTER 71 5.2 GEOMETRY 72 5.3 NEWTONIAN MECHANICS I IK 5A NEWTONIAN MECHANICS II 75 5.5 SPECIAL RELATIVITY 78 5.6 ABSOLUTE AND DYNAMICAL VARIABLES; COVARIANCE 80 5.7 GENERAL RELATIVITY 81 5.8 COSMOLOGY 85 REFERENCES 88 6 TIME IN SPECIAL RELATIVITY DENNIS DIEKS 91 6.1 THE SPACETIME OF PRERELATIVISTIC PHYSICS 92 6.2 THE SPACETIME STRUCTURE OF SPECIAL RELATIVITY 95 6.3 PHILOSOPHICAL ISSUES 103 REFERENCES 112 PART B FOUNDATIONAL ISSUES 7 RIGID MOTION AND ADAPTED FRAMES STEPHEN N. LYLE 117 7.1 RIGID ROD IN SPECIAL RELATIVITY 117 7.2 FRAME FOR AN ACCELERATING OBSERVER 119 7.3 GENERAL MOTION OF A CONTINUOUS MEDIUM 122 7A RIGID MOTION OF A CONTINUOUS MEDIUM 123 7.5 RATE OF STRAIN TENSOR 123 7.6 EXAMPLES OF RIGID MOTION 125 7.7 RIGID MOTION WITHOUT ROTATION 127 7.8 RIGID ROTATION 128 7.9 GENERALIZED UNIFORM ACCELERATION AND SUPERHELICAL MOTIONS 129 7.10 A BRIEF CONCLUSION 138 REFERENCES 139 8 PHYSICS AS SPACETIME GEOMETRY VESSELIN PETKOV LKL 8.1 FOUNDATIONAL KNOWLEDGE AND REALITY OF SPACETIME IKL 8.2 FOUR-DIMENSIONAL PHYSICS AS SPACETIME GEOMETRY 1^3 8.3 PROPAGATION OF LIGHT IN NONINERTIAL REFERENCE FRAMES IN SPACETIME 156 REFERENCES 162 9 ELECTRODYNAMICS OF RADIATING CHARGES IN A GRAVITATIONAL FIELD 0YVIND GR0N 165 9.1 THE DYNAMICS OF A CHARGED PARTICLE 165 9.2 SCHOTT ENERGY AS ELECTROMAGNETIC FIELD ENERGY 168 9.3 PRE-ACCELERATION AND SCHOTT ENERGY 170 9A ENERGY CONSERVATION DURING RUNAWAY MOTION 173 9.5 SCHOTT ENERGY AND RADIATED ENERGY OF A FREELY FALLING CHARGE 176 9.6 NONINVARIANCE OF ELECTROMAGNETIC RADIATION 178 9.7 OTHER EQUATIONS OF MOTION 182 9.8 CONCLUSION 183 REFERENCES 183 10 THE NATURE AND ORIGIN OF TIME-ASYMMETRIC SPACETIME STRUCTURES H. DIETER ZEH 185 10.1 THE TIME ARROW OF GRAVITATING SYSTEMS 185 10.2 BLACK HOLE SPACETIMES 186 10.3 THERMODYNAMICS AND FATE OF BLACK HOLES 188 10.^ EXPANSION OF THE UNIVERSE 191 10.5 QUANTUM GRAVITY 193 REFERENCES 195 11 TELEPARALLELISM: A NEW INSIGHT INTO GRAVITY JOSE 6. PEREIRA 197 11.1 PRELIMINARIES 197 11.2 BASIC CONCEPTS 198 11.3 TELEPARALLEL GRAVITY: A BRIEF REVIEW 203 11.^ ACHIEVEMENTS OF TELEPARALLEL GRAVITY 206 11.5 FINAL REMARKS 210 REFERENCES 211 12 GRAVITY AND THE SPACETIME: AN EMERGENT PERSPECTIVE THANU PADMANABHAN 213 12.1 INTRODUCTION, MOTIVATION, AND SUMMARY 213 12.2 CURIOUS FEATURES IN THE CONVENTIONAL APPROACH TO CLASSICAL GRAVITY 216 12.3 QUANTUM THEORY AND SPACETIME HORIZONS 219 12.K GRAVITATIONAL DYNAMICS AND THERMODYNAMICS OF NULL SURFACES 225 12.5 GRAVITY FROM AN ALTERNATIVE PERSPECTIVE 231 12.6 EMERGENCE OF COSMIC SPACE 233 12.7 A PRINCIPLE TO DETERMINE THE VALUE OF THE COSMOLOGICAL CONSTANT. 237 12.8 CONCLUSIONS 2^1 REFERENCES 2^1 13 SPACETIME AND THE PASSAGE OF TIME GEORGE F. R. ELLIS, RITUPARNO GOSWAMI 2K3 13.1 SPACETIME AND THE BLOCK UNIVERSE 2K3 13.2 TIME AND THE EMERGING BLOCK UNIVERSE 2MT- 13.3 A PROBLEM: SURFACES OF CHANGE 2K9 13.^ OTHER ARGUMENTS AGAINST AN EBU 251 13.5 TIME WITH AN UNDERLYING TIMELESS SUBSTRATUM 255 13.6 IT'S ALL IN THE MIND 258 13.7 TAKING DELAYED CHOICE QUANTUM EFFECTS INTO ACCOUNT 259 13.8 THE ARROW OF TIME AND CLOSED TIME-LIKE LINES 259 13.9 OVERALL: A MORE REALISTIC VIEW 260 IB.A THE ADM FORMALISM 262 REFERENCES 262 UNITARY REPRESENTATIONS OF THE INHOMOGENEOUS LORENTZ GROUP AND THEIR SIGNIFICANCE IN QUANTUM PHYSICS NORBERT STRAUMANN 265 1^.1 LORENTZ INVARIANCE IN QUANTUM THEORY 266 LK.2 WIGNER'S HEURISTIC DERIVATION OF THE PROJECTIVE REPRESENTATIONS OF THE INHOMOGENEOUS LORENTZ GROUP 267 1^.3 ON MACKEY'S THEORY OF INDUCED REPRESENTATIONS 270 LKA FREE CLASSICAL AND QUANTUM FIELDS FOR ARBITRARY SPIN, SPIN, AND STATISTICS 273 LK.K APPENDIX: SOME KEY POINTS OF MACKEY'S THEORY 277 REFERENCES 278 PART C SPACETIME STRUCTURE AND MATHEMATICS 15 SPINORS ROBERT GEROCH 281 15.1 SPINOR BASICS 282 15.2 MANIPULATING SPINORS 285 15.3 GROUPS; REPRESENTATIONS 288 15.A- SPINOR STRUCTURE 290 15.5 LIE AND OTHER DERIVATIVES 293 15.6 4-SPINORS 29^ 15.7 EUCLIDEAN SPINORS 295 15.8 BASES; SPIN COEFFICIENTS 298 15.9 VARIATIONS INVOLVING SPINORS 299 REFERENCES 301 16 THE INITIAL VALUE PROBLEM IN GENERAL RELATIVITY JAMES ISENBERG 303 16.1 OVERVIEW 303 16.2 DERIVATION OF THE EINSTEIN CONSTRAINT AND EVOLUTION EQUATIONS 305 16.3 WELL-POSEDNESS OF THE INITIAL VALUE PROBLEM FOR EINSTEIN'S EQUATIONS 307 16 A THE CONFORMAL METHOD AND SOLUTIONS OF THE CONSTRAINTS 309 16.5 THE CONFORMAL THIN SANDWICH METHOD 315 16.6 GLUING SOLUTIONS OF THE CONSTRAINT EQUATIONS 316 16.7 COMMENTS ON LONG-TIME EVOLUTION BEHAVIOR 318 REFERENCES 319 17 DYNAMICAL AND HAMILTONIAN FORMULATION OF GENERAL RELATIVITY DOMENICO GIULINI 323 17.1 OVERVIEW 323 17.2 NOTATION AND CONVENTIONS 32^ 17.3 EINSTEIN'S EQUATIONS 325 17.K SPACETIME DECOMPOSITION 328 17.5 CURVATURE TENSORS 333 17.6 DECOMPOSING EINSTEIN'S EQUATIONS 339 17.7 CONSTRAINED HAMILTONIAN SYSTEMS 3KK 17.8 HAMILTONIAN GR 3^9 17.9 ASYMPTOTIC FLATNESS AND CHARGES 35^ 17.10 BLACK-HOLE DATA 356 17.11 FURTHER DEVELOPMENTS, PROBLEMS, AND OUTLOOK 359 REFERENCES 360 18 POSITIVE ENERGY THEOREMS IN GENERAL RELATIVITY SERGIO DAIN 363 18.1 THEOREMS 363 18.2 ENERGY 365 18.3 LINEAR MOMENTUM 372 18. K PROOF 371 18.5 FURTHER RESULTS AND OPEN PROBLEMS 378 REFERENCES 379 19 CONSERVED CHARGES IN ASYMPTOTICALLY (LOCALLY) ADS SPACETIMES SEBASTIAN FISCHETTI, WILLIAM KELLY, DONALD MAROLF 381 19.1 ASYMPTOTICALLY LOCALLY ADS SPACETIMES 382 19.2 VARIATIONAL PRINCIPLES AND CHARGES 390 19.3 RELATION TO HAMILTONIAN CHARGES 398 19A THE ALGEBRA OF BOUNDARY OBSERVABLES AND THE ADS/CFT CORRESPONDENCE KOK REFERENCES ^05 20 SPACETIME SINGULARITIES PANKAJ S. JOSHI K09 20.1 SPACE, TIME AND MATTER W9 20.2 WHAT IS A SINGULARITY? ML 20.3 GRAVITATIONAL FOCUSING ^12 20.^ GEODESIC INCOMPLETENESS ^13 20.5 STRONG CURVATURE SINGULARITIES BLK 20.6 CAN WE AVOID SPACETIME SINGULARITIES? ^15 20.7 CAUSALITY VIOLATIONS KL6 20.8 ENERGY CONDITIONS AND TRAPPED SURFACES FL7 20.9 FUNDAMENTAL IMPLICATIONS AND CHALLENGES K\L 20.10 GRAVITATIONAL COLLAPSE KL9 20.11 SPHERICAL COLLAPSE AND THE BLACK HOLE M9 20.12 COSMIC CENSORSHIP HYPOTHESIS ^20 20.13 INHOMOGENEOUS DUST COLLAPSE ^22 20.11 COLLAPSE WITH GENERAL MATTER FIELDS 4-23 20.15 NONSPHERICAL COLLAPSE AND NUMERICAL SIMULATIONS ^25 20.16 ARE NAKED SINGULARITIES STABLE AND GENERIC? ^26 20.17 ASTROPHYSICAL AND OBSERVATIONAL ASPECTS ^27 20.18 PREDICTABILITY AND OTHER COSMIC PUZZLES ^29 20.19 A LAB FOR QUANTUM GRAVITY-QUANTUM STARS? ^32 20.20 CONCLUDING REMARKS K3K REFERENCES K35 21 SINGULARITIES IN COSMOLOGICAL SPACETIMES BEVERLY K. BERGER A-37 21.1 BASIC CONCEPTS ^37 21.2 SPATIALLY HOMOGENEOUS COSMOLOGICAL SPACETIMES KKL 21.3 SPATIALLY INHOMOGENEOUS COSMOLOGIES ^50 21M SUMMARY ^57 21.5 OPEN QUESTIONS K58 REFERENCES ^58 PART D CONFRONTING RELATIVITY THEORIES WITH OBSERVATIONS 22 THE EXPERIMENTAL STATUS OF SPECIAL AND GENERAL RELATIVITY ORFEU BERTOLAMI, JORGE PARAMOS W3 22.1 INTRODUCTORY REMARKS ^63 22.2 EXPERIMENTAL TESTS OF SPECIAL RELATIVITY K63 22.3 TESTING GENERAL RELATIVITY ^68 REFERENCES ^76 23 OBSERVATIONAL CONSTRAINTS ON LOCAL LORENTZ INVARIANCE ROBERT T. BLUHM K85 23.1 SPACETIME SYMMETRIES IN RELATIVITY ^86 23.2 STANDARD MODEL EXTENSION ML 23.3 EXPERIMENTAL TESTS OF LORENTZ VIOLATION U99 23 A SUMMARY AND CONCLUSIONS 50^ REFERENCES 505 2K RELATIVITY IN GNSS NEIL ASHBY 509 2^.1 THE PRINCIPLE OF EQUIVALENCE 510 2^.2 NAVIGATION PRINCIPLES IN THE GNSS 511 2^.3 ROTATION AND THE SAGNAC EFFECT 511 2HM COORDINATE TIME AND TAI 51^ 2^.5 THE REALIZATION OF COORDINATE TIME 516 24-.6 EFFECTS ON SATELLITE CLOCKS 517 2KJ DOPPLER EFFECT 520 2^.8 RELATIVITY AND ORBIT ADJUSTMENTS 521 2^.9 EFFECTS OF EARTH'S QUADRUPOLE MOMENT 521 2^.10 SECONDARY RELATIVISTIC EFFECTS 52^ 2^.11 CONCLUSIONS 525 REFERENCES 525 25 QUASI-LOCAL BLACK HOLE HORIZONS BADRI KRISHNAN 527 25.1 OVERVIEW 527 25.2 SIMPLE EXAMPLES 529 25.3 GENERAL DEFINITIONS AND RESULTS: TRAPPED SURFACES, STABILITY AND QUASI-LOCAL HORIZONS 537 25.^ THE EQUILIBRIUM CASE: ISOLATED HORIZONS 5M 25.5 DYNAMICAL HORIZONS 551 25.6 OUTLOOK 552 REFERENCES 55^ 26 GRAVITATIONAL ASTRONOMY B. SURYANARAYANA SATHYAPRAKASH 557 26.1 BACKGROUND AND MOTIVATION 557 26.2 WHAT ARE GRAVITATIONAL WAVES? 558 26.3 INTERACTION OF GRAVITATIONAL WAVES WITH LIGHT AND MATTER 563 26.^ GRAVITATIONAL WAVE DETECTORS 566 26.5 GRAVITATIONAL ASTRONOMY 571 26.6 CONCLUSIONS 582 REFERENCES 583 27 PROBING DYNAMICAL SPACETIMES WITH GRAVITATIONAL WAVES CHRIS VAN DEN BROEK 589 27.1 OVERVIEW 589 27.2 ALTERNATIVE POLARIZATION STATES 592 27.3 PROBING GRAVITATIONAL SELF-INTERACTION 595 27.K TESTING THE NO HAIR THEOREM 603 27.5 PROBING THE LARGE-SCALE STRUCTURE OF SPACETIME 606 27.6 SUMMARY 610 REFERENCES 611 PART E GENERAL RELATIVITY AND THE UNIVERSE 28 EINSTEIN'S EQUATIONS, COSMOLOGY, AND ASTROPHYSICS PAUL S. WESSON 617 28.1 GRAVITATION TODAY 617 28.2 EINSTEIN'S EQUATIONS 617 28.3 COSMOLOGY 621 28.IT ASTROPHYSICS 62^ 28.5 CONCLUSION 626 REFERENCES 627 29 VISCOUS UNIVERSE MODELS 0YVIND GR0N, DIAKO DARIAN 629 29.1 VISCOUS UNIVERSE MODELS 629 29.2 THE STANDARD MODEL OF THE UNIVERSE 630 29.3 VISCOUS FLUID IN AN EXPANDING UNIVERSE 631 29.^ ISOTROPIC, VISCOUS GENERALIZATION OF THE STANDARD UNIVERSE MODEL. 632 29.5 THE DARK SECTOR OF THE UNIVERSE AS A VISCOUS FLUID 63^ 29.6 VISCOSITY AND THE ACCELERATED EXPANSION OF THE UNIVERSE 638 29.7 VISCOUS UNIVERSE MODELS WITH VARIABLE 6 AND A 639 29.8 HUBBLE PARAMETER IN THE QCD ERA OF THE EARLY UNIVERSE IN THE PRESENCE OF BULK VISCOSITY 6^0 29.9 VISCOUS BIANCHI TYPE-I UNIVERSE MODELS 6M 29.10 VISCOUS COSMOLOGY WITH CASUAL THERMODYNAMICS 6^6 29.11 SUMMARY 652 REFERENCES 652 30 FRIEDMANN-LEMATTRE-ROBERTSON-WALKER COSMOLOGY DAVID WANDS 657 30.1 MOTIVATION 657 30.2 DYNAMICAL EQUATIONS AND SIMPLE SOLUTIONS 661 30.3 THE DENSITY PARAMETER Q 66^ 30M COSMOLOGICAL HORIZONS 666 30.5 INHOMOGENEOUS PERTURBATIONS 667 30.6 OUTLOOK 669 REFERENCES 670 31 EXACT APPROACH TO INFLATIONARY UNIVERSE MODELS SERGIO DEL CAMPO 673 31.1 AIMS AND MOTIVATIONS 673 31.2 INFLATION AS A PARADIGM 676 31.3 THE EXACT SOLUTION APPROACH 678 31.A- SCALAR AND TENSOR PERTURBATIONS 682 31.5 HIERARCHY OF SLOW-ROLL PARAMETERS AND FLOW EQUATIONS 685 31.6 A POSSIBLE WAY OF OBTAINING THE GENERATING FUNCTION H( F ) 686 31.7 TWO INTERESTING CASES 687 31.8 CONCLUSION 692 REFERENCES 693 32 COSMOLOGY WITH THE COSMIC MICROWAVE BACKGROUND TARUN SOURADEEP 697 32.1 CONTEMPORARY VIEW OF OUR COSMOS 697 32.2 THE SMOOTH BACKGROUND UNIVERSE 698 32.3 THE COSMIC MICROWAVE BACKGROUND 701 32.^ PERTURBED UNIVERSE: STRUCTURE FORMATION 702 32.5 CMB ANISOTROPY AND POLARIZATION 703 32.6 CONCLUSION 706 REFERENCES 706 PART F SPACETIME BEYOND EINSTEIN 33 QUANTUM GRAVITY CLAUS KIEFER 709 33.1 WHY QUANTUM GRAVITY? 709 33.2 MAIN APPROACHES TO QUANTUM GRAVITY 713 33.3 OUTLOOK 720 REFERENCES 721 3K QUANTUM GRAVITY VIA CAUSAL DYNAMICAL TRIANGULATIONS JAN AMBJ0RN, ANDRZEJ GORLICH, JERZYJURKIEWICZ, RENATE LOLL 723 3^.1 ASYMPTOTIC SAFETY 723 3K.2 A LATTICE THEORY FOR GRAVITY 726 3^.3 THE PHASE DIAGRAM 733 RELATION TO HORAVA-LIFSHITZ GRAVITY 738 3^.5 CONCLUSIONS 739 REFERENCES 739 35 STRING THEORY AND PRIMORDIAL COSMOLOGY MAURIZIO GASPERINI 7H3 35.1 THE STANDARD BIG BANG COSMOLOGY 7^3 35.2 STRING THEORY 7^5 35.3 STRING COSMOLOGY 7^5 35.^ A HIGHER DIMENSIONAL UNIVERSE 7^7 35.5 BRANE COSMOLOGY 7^8 35.6 CONCLUSION 7^9 REFERENCES 7^9 36 QUANTUM SPACETIME CARLO ROVELLI 751 36.1 GENERAL IDEAS FOR UNDERSTANDING QUANTUM GRAVITY 751 36.2 TIME 751 36.3 INFINITIES 753 36.^ SPACE 75T 36.5 QUANTUM SPACETIME 756 REFERENCES 756 37 GRAVITY, GEOMETRY, AND THE QUANTUM HANNO SAHLMANN 759 37.1 GRAVITY AS A GAUGE THEORY 762 37.2 QUANTUM GEOMETRY 765 37.3 QUANTUM EINSTEIN EQUATIONS 771 37.^ BLACK HOLES 776 37.5 OUTLOOK 778 REFERENCES 779 38 SPIN FOAMS JONATHAN S. ENGLE 783 38.1 BACKGROUND IDEAS 784- 38.2 SPIN-FOAM MODELS OF QUANTUM GRAVITY 790 38.3 DERIVING THE AMPLITUDE VIA A SIMPLER THEORY 793 38.I REGGE ACTION AND THE SEMIDASSICAL LIMIT 799 38.5 TWO-POINT CORRELATION FUNCTION FROM SPIN FOAMS 801 38.6 DISCUSSION 80^ REFERENCES 805 39 LOOP QUANTUM COSMOLOGY IVAN AGULLO, ALEJANDRO CORICHI 809 39.1 OVERVIEW 809 39.2 QUANTIZATION OF COSMOLOGICAL BACKGROUNDS 812 39.3 INHOMOGENEOUS PERTURBATIONS IN LQC 823 39.^ LQC EXTENSION OF THE INFLATIONARY SCENARIO 829 39.5 CONCLUSIONS 835 REFERENCES 836 ACKNOWLEDGEMENTS 8M ABOUT THE AUTHORS 8^3 DETAILED CONTENTS 853 INDEX 871
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illustrated	Illustrated
indexdate	2024-08-03T01:51:10Z
institution	BVB
isbn	9783642419911 3642419917
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-027552622
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publishDate	2014
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publisher	Springer
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spelling	Springer Handbook of Spacetime Abhay Ashtekar ... (Eds.) Handbook of Spacetime Berlin Springer 2014 XXVI, 887 S. Ill., graph. Darst. 242 mm x 193 mm txt rdacontent n rdamedia nc rdacarrier Raum-Zeit (DE-588)4302626-6 gnd rswk-swf Raum-Zeit (DE-588)4302626-6 s DE-604 Ashtekar, Abhay 1949- (DE-588)1053809441 edt X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4471681&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027552622&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Springer Handbook of Spacetime Raum-Zeit (DE-588)4302626-6 gnd
subject_GND	(DE-588)4302626-6
title	Springer Handbook of Spacetime
title_alt	Handbook of Spacetime
title_auth	Springer Handbook of Spacetime
title_exact_search	Springer Handbook of Spacetime
title_full	Springer Handbook of Spacetime Abhay Ashtekar ... (Eds.)
title_fullStr	Springer Handbook of Spacetime Abhay Ashtekar ... (Eds.)
title_full_unstemmed	Springer Handbook of Spacetime Abhay Ashtekar ... (Eds.)
title_short	Springer Handbook of Spacetime
title_sort	springer handbook of spacetime
topic	Raum-Zeit (DE-588)4302626-6 gnd
topic_facet	Raum-Zeit
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