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Books on the topic 'Gravitational waves'

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Published: 4 June 2021
Last updated: 29 July 2024

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1

Kembhavi, Ajit, and Pushpa Khare. Gravitational Waves. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5709-5.

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2

Maggiore, Michele. Gravitational waves. Oxford: Oxford University Press, 2008.

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3

Kitchin, C. R. Understanding Gravitational Waves. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-74207-2.

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4

Tikhookeanskiĭ okeanologicheskiĭ institut (Rossiĭskai͡a︡ akademii͡a︡ nauk), ed. Vzaimodeĭstvie gravitonov vysokikh ėnergiĭ s fermionami. Vladivostok: [s.n.], 1993.

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5

NATO Advanced Research Workshop on Gravitational Wave Data Analysis (1987 Cardiff, Wales). Gravitational wave data analysis. Dordrecht [Holland]: Kluwer Academic Publishers, 1989.

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6

Feldbaum, David M. Gravitational Waves: An Overview. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-031-02613-3.

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7

Kenath, Arun, and Chandra Sivaram. Physics of Gravitational Waves. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-30463-7.

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8

Seminar "Gravitat͡sionnai͡a ėnergii͡a i gravitat͡sionnye volny" (6th 1993 Dubna, Chekhovskiĭ raĭon, Russia). Trudy VI seminara "Gravitat͡sionnai͡a ėnergii͡a i gravitat͡sionnye volny", Dubna, 26-30 okti͡abri͡a 1993 goda. Dubna: OII͡AI, 1994.

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9

Dhurandhar, Sanjeev, and Sanjit Mitra. General Relativity and Gravitational Waves. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-92335-8.

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10

Babak, Stanislav. Gravitational Waves from Coalescing Binaries. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-031-02612-6.

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11

Li, Tjonnie G. F. Extracting Physics from Gravitational Waves. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-19273-4.

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12

G, Blair David, ed. The Detection of gravitational waves. Cambridge: Cambridge University Press, 1991.

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13

Petlan, Jiri. Gravitational communication systems. Vancouver: Instar Pub., 2009.

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14

TAMA International Workshop on Gravitational Wave Detection (1996 Saitama, Japan). Gravitational wave detection: Proceedings of the TAMA International Workshop on Gravitational Wave Detection held at National Women's Education Centre, Saitama, Japan on November 12-14, 1996. Tokyo: Universal Academy Press, 1997.

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15

TAMA International Workshop on Gravitational Wave Detection 2nd 1999 Tokyo, Japan). Gravitational wave detection II: Proceedings of the 2nd TAMA International Workshop on Gravitational Wave Detection held at National Olympics Memorial Youth Center, Tokyo, Japan on October 19-22, 1999. Tokyo, Japan: Universal Academy Press, 2000.

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16

Sir Arthur Eddington Centenary Symposium (1984 Nāgpur, India). Gravitational radiation and relativity. Edited by Weber J. 1919- and Karade T. M. Singapore: World Scientific, 1986.

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17

Jaranowski, Piotr. Analysis of gravitational-wave data. Cambridge: Cambridge University Press, 2009.

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18

Jaranowski, Piotr. Analysis of gravitational-wave data. Cambridge: Cambridge University Press, 2009.

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19

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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20

Grote, Hartmut. Gravitational Waves. CRC Press, 2019. http://dx.doi.org/10.1201/9780429028045.

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21

Ciufolini, Ignazio, Vittorio Gorini, Ugo Moschella, and Pietro Fr�, eds. Gravitational Waves. IOP Publishing Ltd, 2001. http://dx.doi.org/10.1887/0750307412.

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22

Gorini, V., U. Moschella, I. Ciufolini, and P. Fre. Gravitational Waves. Taylor & Francis Group, 2001.

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23

Gravitational Waves. CRC Press LLC, 2001.

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24

Gorini, V., U. Moschella, I. Ciufolini, and P. Fre. Gravitational Waves. Taylor & Francis Group, 2019.

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25

Gorini, Vittorio, Ugo Moschella, Ignazio Ciufolini, V. Gorini, and I. Ciufolini. Gravitational Waves. Taylor & Francis Group, 2010.

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26

Gorini, V., U. Moschella, I. Ciufolini, and P. Fre. Gravitational Waves. Taylor & Francis Group, 2001.

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27

Kitchin, C. R. Understanding Gravitational Waves. Springer International Publishing AG, 2021.

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28

Gaughan, Richard. Gravitational Waves Explained. Enslow Publishing, LLC, 2018.

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29

Gaughan, Richard. Gravitational Waves Explained. Enslow Publishing, LLC, 2018.

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30

Gaughan, Richard. Gravitational Waves Explained. Enslow Publishing, LLC, 2018.

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31

Reitze, David, David Reitze, Peter Saulson, and Hartmut Grote. Advanced Interferometric Gravitational-Wave Detectors : Advanced Interferometric Gravitational-wave Detectors: Essentials of ... and Beyond. World Scientific Publishing Company, 2019.

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32

Thorne. Gravitational Radiation. Cambridge University Press, 1994.

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33

Fundamentals of Interferometric Gravitational Wave Detectors. World Scientific Publishing Co Pte Ltd, 1994.

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34

Fundamentals of interferometric gravitational wave detectors. Singapore: World Scientific, 1994.

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35

Belinski, V., and E. Verdaguer. Gravitational Solitons. Cambridge University Press, 2001.

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36

Belinski, V., E. Verdaguer, P. V. Landshoff, D. R. Nelson, and D. W. Sciama. Gravitational Solitons. Cambridge University Press, 2005.

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37

Belinski, V., and E. Verdaguer. Gravitational Solitons. Cambridge University Press, 2009.

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38

Belinski, V., and E. Verdaguer. Gravitational Solitons. Cambridge University Press, 2001.

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39

Feldbaum, David M. Gravitational Waves: An Overview. Morgan & Claypool Publishers, 2020.

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40

Blair, David G. Detection of Gravitational Waves. Cambridge University Press, 2011.

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41

Silk, J., E. Coccia, and N. Vittorio. Gravitational Waves and Cosmology. IOS Press, Incorporated, 2020.

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42

Silk, J., E. Coccia, and N. Vittorio. Gravitational Waves and Cosmology. IOS Press, Incorporated, 2020.

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43

G, Blair David. Detection of Gravitational Waves. Cambridge University Press, 2009.

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44

Feldbaum, David M. Gravitational Waves: An Overview. Morgan & Claypool Publishers, 2020.

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45

Feldbaum, David M. Gravitational Waves: An Overview. Springer International Publishing AG, 2020.

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46

Feldbaum, David M. Gravitational Waves: An Overview. Morgan & Claypool Publishers, 2020.

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47

Gravity!: The Quest for Gravitational Waves. Oxford University Press, 2018.

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48

Mashhoon, Bahram. Linearized Gravitational Waves in Nonlocal Gravity. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803805.003.0009.

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Gravitational radiation is investigated within the framework of linearized nonlocal gravity. In this theory, linearized gravitational waves are damped as they travel from the source to the receiver. This gravitational memory drag leads to the exponential decay of the wave amplitude. The damping effect could be significant for waves with very long wavelegths comparable to galactic distances. More generally, for gravitational waves with wavelengths comparable to the basic nonlocality lengthscale of order 1 kpc, the nonlocal deviations from general relativity can be significant. However, gravitational waves of current observational interest have wavelengths that are very small in comparison with 1 kpc; in this case, the nonlocal deviations from general relativity essentially average out and can be safely neglected in practice.
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49

(Editor), W. F. Velloso, O. D. Aguiar (Editor), and N. S. Magalhaes (Editor), eds. Omnidirectional Gravitational Radiation Observatory. World Scientific Publishing Company, 1997.

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50

Belinski, V., and E. Verdaguer. Gravitational Solitons (Cambridge Monographs on Mathematical Physics). Cambridge University Press, 2005.

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