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Books on the topic 'Dark matter; Cosmic infall'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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1

1942-, Rees Martin J., ed. Cosmic coincidences: Dark matter, mankind and anthropic cosmology. London: Black Swan, 1991.

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2

Albrecht, Andreas Johann. Perturbations from cosmic strings in cold dark matter. [Batavia, Ill.]: Fermi National Accelerator Laboratory, 1991.

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3

Gribbin, John R. Cosmic coincidences: Dark matter, mankind, and anthropic cosmology. New York, NY: Bantam Books, 1989.

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4

Shirasaki, Masato. Probing Cosmic Dark Matter and Dark Energy with Weak Gravitational Lensing Statistics. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-287-796-3.

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5

Discovering postmodern cosmology: Discoveries in dark matter, cosmic web, big bang, inflation, cosmic rays, dark energy, accelerating cosmos. Boca Raton, Fla: Universal Publishers, 2008.

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6

Thomas, Buchert, and Mersini-Houghton Laura, eds. Cosmic update: Dark puzzles. Arrow of time. Future history. New York: Springer, 2011.

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7

Cosmic questions: Galactic halos, cold dark matter, and the end of time. New York: J. Wiley, 1993.

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8

Drexler, Jerome. Our universe via Drexler dark matter: Drexler dark matter created and explains dark energy, top-down cosmology, inflation, accelerating cosmos, stars, galaxies, cosmic web. Boca Raton: Universal-Publishers, 2009.

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9

Our universe via Drexler dark matter: Drexler dark matter created and explains dark energy, top-down cosmology, inflation, accelerating cosmos, stars, galaxies, cosmic web. Boca Raton: Universal-Publishers, 2009.

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10

Through a universe darkly: A cosmic tale of ancient ethers, dark matter, and the fate of the universe. New York: HarperCollins, 1993.

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11

Roberto, Battiston, and Bertucci Bruna, eds. Matter, antimatter, and dark matter: Proceedings of the second international workshop, Trento, Italy, 29-30 October 2001. River Edge, NJ: World Scientific, 2002.

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12

NATO, Advanced Study Institute on Current Topics in Astrofundamental Physics (1994 Erice Italy). Current topics in astrofundamental physics: The early universe. Dordrecht: Kluwer Academic, 1995.

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13

RESCEU International Symposium (1st 1995 Tokyo, Japan). Cosmological constant and the evolution of the universe: Proceedings of the 1st RESCEU International Symposium on "the cosmological constant and the evolution of the universe" held on November 7-10, 1995, in Tokyo, Japan. Tokyo: Universal Academy Press, 1996.

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14

Jean-Michel, Alimi, ed. Particle astrophysics: The early universe and cosmic structures : proceedings of the 25th Rencontre de Moriond, Les Arcs, Savoie, France, March 4-11-1990. Gif-sur-Yvette: Edition Frontières, 1990.

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15

Kieda, David B. (David Basil) and Gondolo P, eds. Proceedings of the 2009 Snowbird Particle Astrophysics and Cosmology Workshop (SNOWPAC 2009): Proceedings of a workshop held at Snowbird, Utah, USA, 1-7 February 2009. San Francisco, Calif: Astronomical Society of the Pacific, 2010.

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16

P, Israel F., ed. Light on dark matter: Proceedings of the first IRAS Conference, Noordwijk, The Netherlands, 10-14 June, 1985. Dordrecht, [Netherlands]: D. Reidel, 1986.

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17

A, Bottino, and Monacelli P, eds. TAUP 89: Workshop on Theoretical and Phenomenological Aspects of Underground Physics, Laboratori Nazionali Gran Sasso (INFN) and Universita dell'Aquila, September 25-28, 1989. Gif-sur-Yvette Cedex, France: Editions Frontieres, 1989.

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18

V, Olinto Angela, Frieman Joshua A. 1959-, and Schramm David N, eds. Eighteenth Texas Symposium on Relativistic Astrophysics and Cosmology: "Texas in Chicago", Chicago, 15-20 December 1996. Singapore: World Scientific, 1998.

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19

Topical Workshop on Low Radioactivity Techniques (3rd 2010 Sudbury, Ont.). Topical Workshop on Low Radioactivity Techniques: LRT 2010 : Sudbury, Canada, 28-29 August 2010. Edited by Ford Richard 1968-. Melville, N.Y: American Institute of Physics, 2011.

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20

Topical, Workshop on Low Radioactivity Techniques (2004 Sudbury Ont ). Topical Workshop on Low Radioactivity Techniques: LRT 2004, Sudbury, Ontario, Canada, 12-14 December, 2004. Melville, N.Y: American Institute of Physics, 2005.

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21

Einasto, Jaan. DARK MATTER and COSMIC WEB STORY. World Scientific Publishing Co Pte Ltd, 2013.

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22

Cosmic Cocktail: Three Parts Dark Matter. Princeton University Press, 2016.

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23

Freese, Katherine. Cosmic Cocktail: Three Parts Dark Matter. Princeton University Press, 2014.

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24

Freese, Katherine. Cosmic Cocktail: Three Parts Dark Matter. Princeton University Press, 2014.

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25

The Cosmic Cocktail Three Parts Dark Matter. Princeton University Press, 2014.

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26

Dalen, Anthony Van. Cosmic-string-induced hot dark matter perturbations. 1990.

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27

Shirasaki, Masato. Probing Cosmic Dark Matter and Dark Energy with Weak Gravitational Lensing Statistics. Springer, 2015.

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28

Shirasaki, Masato. Probing Cosmic Dark Matter and Dark Energy with Weak Gravitational Lensing Statistics. Springer, 2016.

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29

The Great Cosmic Sea of Reality: The Dark Matter Fractal Field. Page Publishing, Inc., 2018.

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30

Nekoogar, Farzad, Thomas Buchert, Fred Adams, and Laura Mersini-Houghton. Cosmic Update: Dark Puzzles. Arrow of Time. Future History. Springer, 2014.

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31

Morris, Richard. Cosmic Questions: Galactic Halos, Cold Dark Matter and the End of Time (Wiley Popular Science). Wiley, 1995.

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32

(Editor), Norma G. Sànchez, and Antonino Zichichi (Editor), eds. Current Topics in Astrofundamental Physics: The Early Universe (NATO Science Series C:). Springer, 1995.

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33

1952-, Sánchez N., Zichichi Antonino, North Atlantic Treaty Organization. Scientific Affairs Division., and NATO Advanced Study Institute on Current Topics in Astrofundamental Physics: the Early Universe (1994 :Erice, Italy), eds. Current topics in astrofundamental physics: The early universe. Dordrecht: Kluwer Academic Publishers, 1995.

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34

Particle astrophysics: The early universe and cosmic structures : Proceedings of the 25th Rencontre de Moriond, Les Arcs, Savoie, France, March 4-11-1990. Edition Frontieres, 1990.

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35

Through a Universe Darkly/a Cosmic Tale of Ancient Ethers, Dark Matter, and the Fate of the Universe. Harper Perennial, 1995.

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36

Nigel, Metcalfe, and Shanks T. 1953-, eds. Cosmic frontiers: Proceedings of a conference held at the Department of Physics, Durham University, UK, 31 July-4 August 2006. San Francisco, Calif: Astronomical Society of the Pacific, 2007.

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37

From Redshift to Cosmic Background Radiation-Comprehensive Study Of Mysteries In Science. Taiwan: Cres Huang, 2014.

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38

S, Holt Stephen, Bennett Charles L. 1956-, and Trimble Virginia, eds. After the first three minutes: College Park, MD 1990. New York: American Institute of Physics, 1991.

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39

TAUP 89: Workshop on Theoretical and Phenomenological Aspects of Underground Physics, Laboratori Nazionali Gran Sasso (INFN) and Universita dell'Aquila, September 25-28, 1989. Editions Frontieres, 1989.

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40

Comprehending and Decoding the Cosmos: Discovering Solutions to Over a Dozen Cosmic Mysteries by Utilizing Dark Matter Relationism, Cosmology, and Astrophysics. Universal Publishers, 2006.

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41

Vigdor, Steven E. The Dark Side. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814825.003.0006.

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Chapter 6 deals with the remaining mysteries in cosmology—dark matter, dark energy, and inflationary expansion—and the experiments aimed at solving them. It reviews the evidence for dark matter, and experiments to detect the microscopic particles proposed as its constituents: weakly interacting massive particles and invisible axions. Contrasts are drawn between the failure to understand the scale of dark energy theoretically and the ambitious new survey telescopes, such as the Large Synoptic Survey Telescope (or LSST), that aim to constrain its equation of state. The theoretical concepts and possible experimental signatures of cosmic inflation are described. Searches for possible imprints from primordial inflation-induced gravitational waves on the polarization of the cosmic microwave background (CMB polarization) are discussed in the context of the pioneering first detection by the Laser Interferometer Gravitational-Wave Observatory (or LIGO) of gravitational waves from distant black-hole mergers. Philosophical questions regarding the falsifiability of inflation are raised.
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42

G, Fontaine, Tran J. Thanh Van, Comité national de la recherche scientifique (France), and Rencontres de Blois (4th : 1992 : Château de Blois), eds. Particle astrophysics. Gif-sur-Yvette, France: Editions Frontieres, 1993.

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43

Observatory, Smithsonian Astrophysical, and Goddard Space Flight Center, eds. Science with the Constellation-X Observatory: Supernovae, black holes, life cycles of matter in the universe, dark matter, clusters of galaxies, extreme gravity, cosmic jets, stellar coronae, neutron stars, white dwarfs. [Cambridge, Mass.]: Smithsonian Astrophysical Observatory, 1999.

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44

Mee, Nicholas. The Cosmic Mystery Tour. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198831860.001.0001.

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The Cosmic Mystery Tour is a brief account of modern physics and astronomy presented in a broad historical and cultural context. The book is attractively illustrated and aimed at the general reader. Part I explores the laws of physics including general relativity, the structure of matter, quantum mechanics and the Standard Model of particle physics. It discusses recent discoveries such as gravitational waves and the project to construct LISA, a space-based gravitational wave detector, as well as unresolved issues such as the nature of dark matter. Part II begins by considering cosmology, the study of the universe as a whole and how we arrived at the theory of the Big Bang and the expanding universe. It looks at the remarkable objects within the universe such as red giants, white dwarfs, neutron stars and black holes, and considers the expected discoveries from new telescopes such as the Extremely Large Telescope in Chile, and the Event Horizon Telescope, currently aiming to image the supermassive black hole at the galactic centre. Part III considers the possibility of finding extraterrestrial life, from the speculations of science fiction authors to the ongoing search for alien civilizations known as SETI. Recent developments are discussed: space probes to the satellites of Jupiter and Saturn; the discovery of planets in other star systems; the citizen science project SETI@Home; Breakthrough Starshot, the project to develop technologies to send spacecraft to the stars. It also discusses the Fermi paradox which argues that we might actually be alone in the cosmos
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45

(Editor), Bruce Cleveland, Richard Ford (Editor), and Mark Chen (Editor), eds. Topical Workshop on Low Radioactivity Techniques: LRT 2004 (AIP Conference Proceedings). American Institute of Physics, 2005.

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46

Vigdor, Steven E. Expansion Everlasting. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814825.003.0005.

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Chapter 5 presents experiments illuminating the cosmological evolution of the universe and its energy budget, accounting for its longevity. The observations establishing the Hubble’s Law linear relationship between intergalactic distances and recession speeds, and their interpretation in terms of the expansion of cosmic space, are reviewed. The evidence for big bang cosmology from nucleosynthesis and the cosmic microwave background (CMB) is presented. The measurements that establish the ongoing acceleration of the cosmic expansion are reviewed: distant supernova recession speeds, tiny CMB anisotropies, baryon acoustic oscillations, and gravitational lensing. Excellent model fits to these data, assuming general relativity, cold dark matter, and a cosmological constant, lead to precise determinations of both the age of the universe and the energy budget of the universe. The cosmic history of the expansion rate and the energy budget are inferred, along with the remarkable flatness of cosmic space within the observable portion of the universe.
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47

Mashhoon, Bahram. Nonlocal Newtonian Cosmology. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803805.003.0010.

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We explore some of the cosmological implications of nonlocal gravity (NLG) theory, in which nonlocality is due to the gravitational memory of past events. Memory dies out in space and time. The fading of memory in time implies that in NLG the strength of the gravitational interaction must decrease with cosmic time. In the Newtonian regime of NLG, the nonlocal character of gravity simulates dark matter in spiral galaxies and clusters of galaxies. However, dark matter is considered indispensable as well for structure formation in standard models of cosmology. Can nonlocal gravity solve the problem of structure formation in cosmology without recourse to dark matter? In this chapter, a beginning is made in this direction by extending nonlocal gravity in the Newtonian regime to the cosmological domain. The nonlocal analog of the Zel’dovich solution is formulated and the consequences of the resulting nonlocal Zel’dovich model are investigated in detail.
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48

Deruelle, Nathalie, and Jean-Philippe Uzan. The Lambda-CDM model of the hot Big Bang. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786399.003.0059.

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This chapter introduces the Lambda-CDM (cold dark matter) model. In 1948, under the impetus of George Gamow, Robert Hermann, Ralph Alpher, and Hans Bethe in particular, relativistic cosmology entered the second phase of its history. In this phase, physical processes, in particular, nuclear and atomic processes, are taken into account. This provides two observational tests of the model: primordial nucleosynthesis, which explains the origin of light nuclei, and the existence of the cosmic microwave background, and it establishes the fact that the universe has a thermal history. Study of the large-scale structure of the universe then indicates the existence of dark matter and a nonzero cosmological constant. This model, known as the Λ‎CDM model, is the standard model of contemporary cosmology.
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49

Silberstein, Michael, W. M. Stuckey, and Timothy McDevitt. Relational Blockworld Approach to Unification and Quantum Gravity. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807087.003.0007.

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The main thread of chapter 6 prompts the need for quantum gravity (QG) and introduces the RBW approach to QG, unification in particle physics, dark matter, and dark energy. The details of RBW’s modified Regge calculus and modified lattice gauge theory approaches are conveyed conceptually in the main thread. The RBW fits of galactic rotation curves, galactic cluster mass profiles, the angular power spectrum of the cosmic microwave background, and the Union2.1 supernova data associated with dark matter and dark energy are in Foundational Physics for Chapter 6. In Philosophy of Physics for Chapter 6, RBW’s taxonomic location with respect to other discrete approaches to QG is detailed and it is argued that the search for QG is stymied by the dynamical paradigm across the board. Further, it is maintained that an adynamical global constraint as the basis for QG in the block universe provides a self-vindicating unification of physics.
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50

Wittman, David M. Orbits. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199658633.003.0017.

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Orbits are ubiquitous in the universe: moons orbit planets, planets orbit stars, stars orbit around the center of the Milky Way galaxy, and so on. Any theory of gravity will have to explain the properties of all these orbits. To pave the way for developing the metric theory of gravity (general relativity) this chapter examines the basics of orbits as observed and as explained by the Newtonian model of gravity. We can use our understanding of gravity to infer the masses and other properties of these cosmic systems. Te chapter concludes with four optional sections in this spirit, covering the slingshot maneuver; dark matter; binary star orbits and how they reveal the masses of stars; and extrasolar planets.
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