000			06218cam a2200673Mu 4500
001			on1024285717
003			OCoLC
005			20220908100135.0
006			m o d
007			cr |n|---|||||
008			180224s2018 nju o 000 0 eng d
010			_a 2017963025
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019			_a1175627968
020			_a9781400889853
020			_a1400889855
020			_z0691179506
020			_z9780691179506
020			_z9780691179735
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035			_a(OCoLC)1024285717 _z(OCoLC)1175627968
037			_a22573/ctvc611kc _bJSTOR
037			_a9452329 _bIEEE
050		4	_aQC178
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072		7	_aSCI _x033000 _2bisacsh
072		7	_aSCI _x055000 _2bisacsh
082	0	4	_a523 _223
049			_aMAIN
100	1		_aStrominger, Andrew. _965055
245	1	0	_aLectures on the Infrared Structure of Gravity and Gauge Theory.
260			_aPrinceton : _bPrinceton University Press, _c2018.
300			_a1 online resource (199 pages)
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
588	0		_aPrint version record.
505	0		_aCover; Title; Copyright; Dedication; Contents; Preface; 1. Introduction; 1.1 The Infrared Triangle; 1.2 New Developments; 1.3 Echoing Triangles; 1.3.1 QED, Yang-Mills Theory, Gravity, Massless Particles, . . .; 1.3.2 Leading, Subleading, Sub-Subleading, . . .; 1.3.3 Double Soft Theorems, . . .; 1.3.4 Classical, quantum, . . .; 1.3.5 Minkowski, D 4, Cosmology, . . .; 1.3.6 Supersymmetry, N = 1, 2, . . .; 1.4 Motivation and Applications; 1.4.1 Connecting Disparate Subjects; 1.4.2 Flat Space Holography; 1.4.3 The Gauge Theory S-Matrix; 1.4.4 Miracles in N = 4 Yang-Mills.
505	8		_a1.4.5 Black Holes2. QED; 2.1 Li�A�nard-Wiechert Solution; 2.2 Minkowski Space Penrose Diagram; 2.3 Antipodal Matching Condition; 2.4 Asymptotic Expansions; 2.5 An Infinity of Conserved Charges; 2.6 Canonical Electrodynamics at I; 2.6.1 Symplectic Form; 2.6.2 Commutators; 2.7 Large Gauge Symmetry; 2.8 Ward Identity; 2.8.1 Symmetries of the S-Matrix; 2.8.2 Mode Expansions; 2.8.3 Soft Theorems; 2.9 Feynman Diagrammatics; 2.9.1 Soft Photons; 2.9.2 Soft Gravitons; 2.10 Asymptotic Symmetries; 2.11 Spontaneous Symmetry Breaking, Vacuum Degeneracy, and Goldstone Bosons; 2.12 Massive QED.
505	8		_a2.12.1 Hyperbolic Slices2.12.2 Soft Theorem; 2.13 Magnetic Charges; 2.14 Supersymmetry; 2.14.1 Soft Photino Theorem; 2.14.2 Fermionic Conservation Laws; 2.14.3 N = 4, 8; 2.15 Infrared Divergences; 3. The S-Matrix as a Celestial Correlator; 4. Nonabelian Gauge Theory; 4.1 G-Kac-Moody Algebra; 4.2 Conserved Charges; 5. Gravity; 5.1 Asymptotically Flat Spacetimes; 5.2 Supertranslations; 5.2.1 BMS Analysis; 5.2.2 The Scattering Problem; 5.2.3 Conserved Charges; 5.3 Superrotations; 5.3.1 Conserved Charges; 5.3.2 Symmetries; 5.3.3 Canonical Formalism; 5.3.4 Subleading Soft Theorem.
505	8		_a6. The Memory Effect7. Black Holes; 7.1 The Information Paradox; 7.2 Soft Hair; 7.2.1 Classical Hair; 7.2.2 Horizon Charges; 7.2.3 Quantum Hair; 7.2.4 Electric Hair; 7.3 Discussion; Exercises with Prahar Mitra and Monica Pate; Solutions with Prahar Mitra and Monica Pate; References; Index.
520			_aA short, graduate-level synthesis of recent developments in theoretical physics, from a pioneer in the fieldLectures on the Infrared Structure of Gravity and Gauge Theory presents an accessible, graduate-level synthesis of a frontier research area in theoretical physics. Based on a popular Harvard University course taught by the author, this book gives a concise introduction to recent discoveries concerning the structure of gravity and gauge theory at very long distances. These discoveries unite three disparate but well-developed subjects in physics. The first subject is the soft theorems, which were found by particle physicists in the 1950s to control the behavior of low-energy photons and are essential for all collider predictions. The second subject is asymptotic symmetries, found by general relativists in the 1960s to provide a surprising, infinite number of exact relations between distinct physical phenomena. The third subject is the memory effect, the measurement of which is sought in upcoming gravitational wave observations. An exploration of the physical and mathematical equivalence of these three subjects has provided a powerful new perspective on old results and led to a plethora of new results, involving symmetries of QED, gluon scattering amplitudes, flat-space holography in quantum gravity, black hole information, and beyond. Uniquely connective and cutting-edge, Lectures on the Infrared Structure of Gravity and Gauge Theory takes students and scholars to the forefront of new developments in the discipline. Materials are presented in a "lecture notes" style with problem sets includedConcise and accessible pedagogical approachTopics include soft theorems, the memory effect, asymptotic symmetries with applications to QED, Yang-Mills theory, quantum gravity, and black holes.
504			_aIncludes bibliographical references (pages 169-180) and index.
590			_aIEEE _bIEEE Xplore Princeton University Press eBooks Library
650		0	_aMathematical physics. _911013
650		6	_aPhysique math�ematique. _964802
650		7	_aSCIENCE _xPhysics _xAstrophysics. _2bisacsh _963873
650		7	_aMathematical physics. _2fast _0(OCoLC)fst01012104 _911013
655		4	_aElectronic books. _93294
776	0	8	_iPrint version: _aStrominger, Andrew. _tLectures on the Infrared Structure of Gravity and Gauge Theory. _dPrinceton : Princeton University Press, �2018 _z9780691179506
856	4	0	_uhttps://ieeexplore.ieee.org/servlet/opac?bknumber=9452329
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938			_aDe Gruyter _bDEGR _n9781400889853
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