Cosmological Inflation, Dark Matter and Dark Energy

Various cosmological observations support not only cosmological inflation in the early universe, which is also known as exponential cosmic expansion, but also that the expansion of the late-time universe is accelerating. To explain this phenomenon, the existence of dark energy is proposed. In additi...

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Yazar: Bamba, Kazuharu
Materyal Türü: Online
Dil:İngilizce
Baskı/Yayın Bilgisi: MDPI - Multidisciplinary Digital Publishing Institute 2021
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Online Erişim:42634
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author Bamba, Kazuharu
author_browse Bamba, Kazuharu
author_facet Bamba, Kazuharu
author_sort Bamba, Kazuharu
collection Directory of Open Access Books
description Various cosmological observations support not only cosmological inflation in the early universe, which is also known as exponential cosmic expansion, but also that the expansion of the late-time universe is accelerating. To explain this phenomenon, the existence of dark energy is proposed. In addition, according to the rotation curve of galaxies, the existence of dark matter, which does not shine, is also suggested. If primordial gravitational waves are detected in the future, the mechanism for realizing inflation can be revealed. Moreover, there exist two main candidates for dark matter. The first is a new particle, the existence of which is predicted in particle physics. The second is an astrophysical object which is not found by electromagnetic waves. Furthermore, there are two representative approaches to account for the accelerated expansion of the current universe. One is to assume the unknown dark energy in general relativity. The other is to extend the gravity theory to large scales. Investigation of the origins of inflation, dark matter, and dark energy is one of the most fundamental problems in modern physics and cosmology. The purpose of this book is to explore the physics and cosmology of inflation, dark matter, and dark energy.
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language eng
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publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-441512023-12-20T18:40:40Z Cosmological Inflation, Dark Matter and Dark Energy Bamba, Kazuharu QA1-939 Q1-390 de Sitter vacuum n/a Einstein-Aether theory of gravity Supernovae apparatus normal galaxies higher dimension gauged super-gravity black hole dark energy model cosmo–particle physics instruments Cosmic Microwave Background (CMB) temperature Dark Energy hyper-color quantum tunneling phenomenon spacetime symmetry parametrizations quantum gravity dynamical Chern–Simons modified gravity comparative planetology properties of specific particles particle physics dark matter Hawking radiation memory junction conditions cosmology composite dark matter dosmological parameters field theory Dark Matter cosmological model extragalactic objects and systems scalar–tensor gravity fundamental astronomy cosmoligical parameters cosmological parameters Baryon Acoustic Oscillation (BAO) dark atoms quantum optical systems brans-dicke theory dark energy models loop quantum cosmology dark energy galactic rotation curve astronomical and space-research instrumentation null hypersurfaces QCD quantum optics Hubble constant and components common to several branches of physics and astronomy statistical analysis bic Book Industry Communication::P Mathematics & science Various cosmological observations support not only cosmological inflation in the early universe, which is also known as exponential cosmic expansion, but also that the expansion of the late-time universe is accelerating. To explain this phenomenon, the existence of dark energy is proposed. In addition, according to the rotation curve of galaxies, the existence of dark matter, which does not shine, is also suggested. If primordial gravitational waves are detected in the future, the mechanism for realizing inflation can be revealed. Moreover, there exist two main candidates for dark matter. The first is a new particle, the existence of which is predicted in particle physics. The second is an astrophysical object which is not found by electromagnetic waves. Furthermore, there are two representative approaches to account for the accelerated expansion of the current universe. One is to assume the unknown dark energy in general relativity. The other is to extend the gravity theory to large scales. Investigation of the origins of inflation, dark matter, and dark energy is one of the most fundamental problems in modern physics and cosmology. The purpose of this book is to explore the physics and cosmology of inflation, dark matter, and dark energy. 2021-02-11T10:40:13Z 2021-02-11T10:40:13Z 2019-12-09 11:49:16 2019 book 42634 9783039217649 9783039217656 https://directory.doabooks.org/handle/20.500.12854/44151 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/1789 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03921-765-6 10.3390/books978-3-03921-765-6 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039217649 9783039217656 236 open access
spellingShingle QA1-939
Q1-390
de Sitter vacuum
n/a
Einstein-Aether theory of gravity
Supernovae
apparatus
normal galaxies
higher dimension gauged super-gravity black hole
dark energy model
cosmo–particle physics
instruments
Cosmic Microwave Background (CMB) temperature
Dark Energy
hyper-color
quantum tunneling phenomenon
spacetime symmetry
parametrizations
quantum gravity
dynamical Chern–Simons modified gravity
comparative planetology
properties of specific particles
particle physics
dark matter
Hawking radiation
memory
junction conditions
cosmology
composite dark matter
dosmological parameters
field theory
Dark Matter
cosmological model
extragalactic objects and systems
scalar–tensor gravity
fundamental astronomy
cosmoligical parameters
cosmological parameters
Baryon Acoustic Oscillation (BAO)
dark atoms
quantum optical systems
brans-dicke theory
dark energy models
loop quantum cosmology
dark energy
galactic rotation curve
astronomical and space-research instrumentation
null hypersurfaces
QCD
quantum optics
Hubble constant
and components common to several branches of physics and astronomy
statistical analysis
bic Book Industry Communication::P Mathematics & science
Bamba, Kazuharu
Cosmological Inflation, Dark Matter and Dark Energy
title Cosmological Inflation, Dark Matter and Dark Energy
title_full Cosmological Inflation, Dark Matter and Dark Energy
title_fullStr Cosmological Inflation, Dark Matter and Dark Energy
title_full_unstemmed Cosmological Inflation, Dark Matter and Dark Energy
title_short Cosmological Inflation, Dark Matter and Dark Energy
title_sort cosmological inflation dark matter and dark energy
topic QA1-939
Q1-390
de Sitter vacuum
n/a
Einstein-Aether theory of gravity
Supernovae
apparatus
normal galaxies
higher dimension gauged super-gravity black hole
dark energy model
cosmo–particle physics
instruments
Cosmic Microwave Background (CMB) temperature
Dark Energy
hyper-color
quantum tunneling phenomenon
spacetime symmetry
parametrizations
quantum gravity
dynamical Chern–Simons modified gravity
comparative planetology
properties of specific particles
particle physics
dark matter
Hawking radiation
memory
junction conditions
cosmology
composite dark matter
dosmological parameters
field theory
Dark Matter
cosmological model
extragalactic objects and systems
scalar–tensor gravity
fundamental astronomy
cosmoligical parameters
cosmological parameters
Baryon Acoustic Oscillation (BAO)
dark atoms
quantum optical systems
brans-dicke theory
dark energy models
loop quantum cosmology
dark energy
galactic rotation curve
astronomical and space-research instrumentation
null hypersurfaces
QCD
quantum optics
Hubble constant
and components common to several branches of physics and astronomy
statistical analysis
bic Book Industry Communication::P Mathematics & science
topic_facet QA1-939
Q1-390
de Sitter vacuum
n/a
Einstein-Aether theory of gravity
Supernovae
apparatus
normal galaxies
higher dimension gauged super-gravity black hole
dark energy model
cosmo–particle physics
instruments
Cosmic Microwave Background (CMB) temperature
Dark Energy
hyper-color
quantum tunneling phenomenon
spacetime symmetry
parametrizations
quantum gravity
dynamical Chern–Simons modified gravity
comparative planetology
properties of specific particles
particle physics
dark matter
Hawking radiation
memory
junction conditions
cosmology
composite dark matter
dosmological parameters
field theory
Dark Matter
cosmological model
extragalactic objects and systems
scalar–tensor gravity
fundamental astronomy
cosmoligical parameters
cosmological parameters
Baryon Acoustic Oscillation (BAO)
dark atoms
quantum optical systems
brans-dicke theory
dark energy models
loop quantum cosmology
dark energy
galactic rotation curve
astronomical and space-research instrumentation
null hypersurfaces
QCD
quantum optics
Hubble constant
and components common to several branches of physics and astronomy
statistical analysis
bic Book Industry Communication::P Mathematics & science
url 42634
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