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Books on the topic 'Quantum Field Theory in curved space-time'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

NATO Advanced Research Workshop on Quantum Mechanics in Curved Space-Time (1989 Erice, Italy). Quantum mechanics in curved space-time. New York: Plenum Press, 1990.

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2

Aspects of quantum field theory in curved space-time. Cambridge: Cambridge University Press, 1989.

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3

Quantum field theory on curved spacetimes: Concepts and mathematical foundations. Dordrecht: Springer, 2009.

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4

Parker, Leonard Emanuel. Quantum field theory in curved spacetime: Quantized fields and gravity. Cambridge: Cambridge University Press, 2009.

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5

Buchbinder, I. L. Renormalization group approach to quantum field theory in curved space-time. Bologna: Editrice Compositori, 1989.

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6

Wald, Robert M. Quantum field theory in curved spacetime and black hole thermodynamics. Chicago: University of Chicago Press, 1994.

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7

Quantum field theory in curved spacetime and black hole thermodynamics. Chicago: University of Chicago Press, 1994.

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8

Tocaci, Emil. Field theory, space and energy. București: Editura Științifică și Enciclopedică, 1986.

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9

Auyang, Sunny Y. How is quantum field theory possible? New York: Oxford University Press, 1995.

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10

Volosov, I. D. Space-time origination. Sankt-Peterburg: I.D. Volosov, 1993.

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11

Nonlocal quantum field theory and stochastic quantum mechanics. Dordrecht: D. Reidel pub. Co., 1986.

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12

Namsraĭ, Khavtgaĭn. Stochastic and quantum background fluctuations in space-time and matter fields. Ulaanbaatar, Mongolia: [s.n.], 1999.

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13

International Colloquium on the Science of Time (2002 Venice, Italy). Time & matter: Venice, Italy, 11-17 August 2002 : proceedings of the International Colloquium on the Science of Time. Edited by Bigi I. I and Faessler Martin. Hackensack, N.J: World Scientific, 2006.

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14

Gianluigi, Fogli, and SpringerLink (Online service), eds. Symmetries and Group Theory in Particle Physics: An Introduction to Space-Time and Internal Symmetries. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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15

Matolcsi, Tamás. Spacetime without reference frames. Budapest: Akadémiai Kiadó, 1993.

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16

The principle of the fermionic projector. Providence, RI: American Mathematical Society, 2005.

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17

Harmonic maps and differential geometry: A harmonic map fest in honour of John C. Wood's 60th birthday, September 7-10, 2009, Cagliari, Italy. Providence, R.I: American Mathematical Society, 2011.

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18

Agnew, Alfonso F. Distributional modes for quantum field theory in curved spacetimes. 1999.

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19

(Editor), Jurgen Audretsch, and V. de Sabbata (Editor), eds. Quantum Mechanics in Curved Space-Time (NATO Science Series: B:). Springer, 1991.

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20

Principles and Applications of Quantum Field Theory in Curved Spacetime (Cambridge Monographs on Mathematical Physics). Cambridge University Press, 2008.

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21

Maggiore, Michele. Inflation and primordial perturbations. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198570899.003.0012.

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Review of inflationary cosmology. Single-field slow-roll inflation. Large-field inflation and small-field inflation. Starobinsky model. Quantum field theory in curved space. Generation of primordial perturbations during inflation. Mukhanov-Sasaki equation. Scalar and tensor perturbations.
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22

't, Hooft G., North Atlantic Treaty Organization. Scientific Affairs Division., and NATO Advanced Study Institute on Quantum Fields and Quantum Space Time (1996 : Cargèse, France), eds. Quantum fields and quantum space time. New York: Plenum Press, 1997.

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23

Hu, Bei-Lok, David J. Toms, and Leonard Parker. Quantum Field Theory Space-Time (Cambridge Monographs on Mathematical Physics). Cambridge University Press, 2004.

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24

Crowther, Karen. Effective Spacetime: Understanding Emergence in Effective Field Theory and Quantum Gravity. Springer, 2018.

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25

Crowther, Karen. Effective Spacetime: Understanding Emergence in Effective Field Theory and Quantum Gravity. Springer, 2016.

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26

Time machine: From the crisis in physics to the future of the universe. Boston, USA: Houghton Mifflin Harcourt, 2013.

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27

Fischer, James P. A new look at the Ashtekar-Magnon energy condition. 1998.

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28

La Renaissance du Temps: Pour en finir avec la crise de la physique. Dunod, 2014.

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29

Kachelriess, Michael. Quantum fields in curved spacetime. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198802877.003.0023.

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After a review of conformal symmetry, this chapter covers the quantisation of fields in curved space-times. It is shown that field operators defined with respect to different vacua are related by a Bogolyubov transformation and that the mixing of positive and negative frequencies determines the amount of particle production. The Unruh effect is explained and it is shown that in a space-time with an event horizon, a thermal spectrum of particles is created close to the horizon.
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30

Time & Matter: Proceedings of the International Colloquium on the Science of Time, Venice, Italy, 11-17 August 2002. World Scientific Publishing Company, 2006.

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31

Rowlands, Peter, Richard L. Amoroso, Richard L. Amoroso, Louis H. Kauffman, and Gianni Albertini. Unified Field Mechanics II : Formulations and Empirical Tests: Proceedings of the Xth Symposium Honoring Noted French Mathematical Physicist Jean-pierre Vigier. World Scientific Publishing Company, 2018.

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32

Operational Spacetime Interactions And Particles. Springer, 2009.

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33

Maggiore, Michele. Gravitational Waves. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198570899.001.0001.

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A comprehensive and detailed account of the physics of gravitational waves and their role in astrophysics and cosmology. The part on astrophysical sources of gravitational waves includes chapters on GWs from supernovae, neutron stars (neutron star normal modes, CFS instability, r-modes), black-hole perturbation theory (Regge-Wheeler and Zerilli equations, Teukoslky equation for rotating BHs, quasi-normal modes) coalescing compact binaries (effective one-body formalism, numerical relativity), discovery of gravitational waves at the advanced LIGO interferometers (discoveries of GW150914, GW151226, tests of general relativity, astrophysical implications), supermassive black holes (supermassive black-hole binaries, EMRI, relevance for LISA and pulsar timing arrays). The part on gravitational waves and cosmology include discussions of FRW cosmology, cosmological perturbation theory (helicity decomposition, scalar and tensor perturbations, Bardeen variables, power spectra, transfer functions for scalar and tensor modes), the effects of GWs on the Cosmic Microwave Background (ISW effect, CMB polarization, E and B modes), inflation (amplification of vacuum fluctuations, quantum fields in curved space, generation of scalar and tensor perturbations, Mukhanov-Sasaki equation,reheating, preheating), stochastic backgrounds of cosmological origin (phase transitions, cosmic strings, alternatives to inflation, bounds on primordial GWs) and search of stochastic backgrounds with Pulsar Timing Arrays (PTA).
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34

Baulieu, Laurent, John Iliopoulos, and Roland Sénéor. The Existence of Field Theories beyond the Perturbation Expansion. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198788393.003.0024.

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The standard model of fundamental interactions. A brief summary of the phenomenology of weak interactions. The construction of the electroweak theory and its experimental consequences. The deep inelastic scattering data as a motivation for quantum chromodynamics. Asymptotic freedom and the parton model. Quantum chromodynamics formulated on a space–time lattice. Non-trivial gauge field configurations and instantons. The meaning of the winding number. The strong CP problem and axions.
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35

Nolte, David D. Galileo Unbound. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198805847.001.0001.

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Galileo Unbound: A Path Across Life, The Universe and Everything traces the journey that brought us from Galileo’s law of free fall to today’s geneticists measuring evolutionary drift, entangled quantum particles moving among many worlds, and our lives as trajectories traversing a health space with thousands of dimensions. Remarkably, common themes persist that predict the evolution of species as readily as the orbits of planets or the collapse of stars into black holes. This book tells the history of spaces of expanding dimension and increasing abstraction and how they continue today to give new insight into the physics of complex systems. Galileo published the first modern law of motion, the Law of Fall, that was ideal and simple, laying the foundation upon which Newton built the first theory of dynamics. Early in the twentieth century, geometry became the cause of motion rather than the result when Einstein envisioned the fabric of space-time warped by mass and energy, forcing light rays to bend past the Sun. Possibly more radical was Feynman’s dilemma of quantum particles taking all paths at once—setting the stage for the modern fields of quantum field theory and quantum computing. Yet as concepts of motion have evolved, one thing has remained constant, the need to track ever more complex changes and to capture their essence, to find patterns in the chaos as we try to predict and control our world.
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36

Kachelriess, Michael. Global symmetries and Noether’s theorem. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198802877.003.0005.

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Noethers theorem shows that continuous global symmetries lead classically to conservation laws. Such symmetries can be divided into spacetime and internal symmetries. The invariance of Minkowski space-time under global Poincaré transformations leads to the conservation of the four-momentum and the total angular momentum. Examples for conserved charges due to internal symmetries are electric and colour charge. The vacuum expectation value of a Noether current is shown to beconserved in a quantum field theory if the symmetry transformation keeps the path-integral measure invariant.
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37

Bennett, Karen, and Dean W. Zimmerman, eds. Oxford Studies in Metaphysics Volume 11. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198828198.001.0001.

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Oxford Studies in Metaphysics is dedicated to the timely publication of new work in metaphysics, broadly construed. These volumes provide a forum for the best new work in this flourishing field. They offer a broad view of the subject, featuring not only the traditionally central topics such as existence, identity, modality, time, and causation, but also the rich clusters of metaphysical questions in neighboring fields, such as philosophy of mind, philosophy of science, and philosophy of religion. This book is the eleventh volume in the series. It contains the work of both established and younger scholars, including the essays that won the Sanders Prize in Metaphysics in 2016 and 2017: Andrew Bacon’s “Relative Locations” and T. Scott Dixon’s “Plural Slot Theory.” Topics covered in this volume include the nature of space and time, the relationalism vs. substantivalism debate, change and fragmentalism, quantum metaphysics, modal combinatorialism, the theory of relations, Humean supervenience, and vagueness.
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