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Masa-aki Hashimoto Riou Nakamura E. P. Berni Ann Thushar Kenzo Arai
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دانلود کتاب Big-Bang Nucleosynthesis Thermonuclear History in the Early Universe
by Masa-aki Hashimoto, Riou Nakamura, E. P. Berni Ann Thushar, Kenzo Arai|
|
عنوان فارسی: Big-Bang Nucleosynthesis گرما تاریخچه در جهان اولیه |
دانلود کتاب
جزییات کتاب
The origin of elements has been one of the most interesting issues in science,
because it is closely connected with that of ourselves and the solar system. At
present, this subject is considered to be related to the evolution of the universe.
The Big Bang model, based on the theory of General Relativity, has proven to be
the most reliable theory to describe the evolution of the universe. This is supported
by the following observational facts: the expansion of the universe, the cosmic
microwave background (CMB) radiation with a tiny fluctuation in temperature, and
the primordial abundance of light elements, 4He, D, and 7Li.
Among many kinds of books concerning the Big Bang theory, we present a
book which includes a detailed description of Big Bang nucleosynthesis (BBN)
whose theme has not been explained well so far. BBN is the interdisciplinary field
which incorporates nuclear physics, elementary particle physics, and astronomy. In
particular, it is indispensable to obtain important information on the earth, such
as the results of experiments by particle accelerators and observational findings
from stars and galaxies. Originally, nucleosynthesis in the early universe had been
studied fully by nuclear (particle) physicists, which were based on experimental
data of nuclear fusion and β-decays. The basic idea that the light elements could be
produced during the BBN epoch – the first 3 min – still holds now.
We are now in an amazing stage of development in modern cosmology. To derive
matter density of the universe, we need to measure the mass of a typical galaxy and
intergalactic distance. To this end, we climb up the cosmic distance ladder from
the mean distance between the Earth and the Sun, 1.5 × 1013 cm, to the size of the
large-scale structure of the universe, 1026 cm, which is an interesting and instructive
subject on observational cosmology in its own right. Nevertheless, using calculated
abundance of BBN, the matter density of baryons except dark matter is determined
with great accuracy from the observed primordial abundance of D.
In this book, we start to make introductory explanations of General Relativity
and physical processes which are necessary to construct a model of the Big Bang
universe. Moreover, to explain the consistency between the calculated and observed
abundances of light elements, we must explore many physical possibilities. In
particular, we emphasize the importance of the idea beyond the standard BBN,
because fundamental questions of both dark matter and dark energy are not
answered at all.
This book is meant to become a survey of the state of physical cosmology,
including observational and theoretical parts that establish the subject as a mature
physical science and the more notable attempts to improve and extend the picture.
The goal of this book is to present theoretical bases and applications of BBN.
Readers can appreciate the current status of BBN and acquire techniques to calculate
nucleosynthesis. As a result, they obtain a new idea for BBN in the framework
of modern cosmology. The contents include a basic curriculum of physics, that
is, mechanics, thermodynamics, quantum mechanics, and statistical physics. If a
reader is unfamiliar with General Relativity, we recommend to skip complicated
expressions, because he or she can comprehend the fundamental concept of BBN
without the intricate formulae. Thus, most of this book is accessible to people who
have studied physics to an advanced level at university; we hope that not only
graduated students but also undergraduates would become familiar with BBN and
receive inspiration from the early universe.
March 2018"
because it is closely connected with that of ourselves and the solar system. At
present, this subject is considered to be related to the evolution of the universe.
The Big Bang model, based on the theory of General Relativity, has proven to be
the most reliable theory to describe the evolution of the universe. This is supported
by the following observational facts: the expansion of the universe, the cosmic
microwave background (CMB) radiation with a tiny fluctuation in temperature, and
the primordial abundance of light elements, 4He, D, and 7Li.
Among many kinds of books concerning the Big Bang theory, we present a
book which includes a detailed description of Big Bang nucleosynthesis (BBN)
whose theme has not been explained well so far. BBN is the interdisciplinary field
which incorporates nuclear physics, elementary particle physics, and astronomy. In
particular, it is indispensable to obtain important information on the earth, such
as the results of experiments by particle accelerators and observational findings
from stars and galaxies. Originally, nucleosynthesis in the early universe had been
studied fully by nuclear (particle) physicists, which were based on experimental
data of nuclear fusion and β-decays. The basic idea that the light elements could be
produced during the BBN epoch – the first 3 min – still holds now.
We are now in an amazing stage of development in modern cosmology. To derive
matter density of the universe, we need to measure the mass of a typical galaxy and
intergalactic distance. To this end, we climb up the cosmic distance ladder from
the mean distance between the Earth and the Sun, 1.5 × 1013 cm, to the size of the
large-scale structure of the universe, 1026 cm, which is an interesting and instructive
subject on observational cosmology in its own right. Nevertheless, using calculated
abundance of BBN, the matter density of baryons except dark matter is determined
with great accuracy from the observed primordial abundance of D.
In this book, we start to make introductory explanations of General Relativity
and physical processes which are necessary to construct a model of the Big Bang
universe. Moreover, to explain the consistency between the calculated and observed
abundances of light elements, we must explore many physical possibilities. In
particular, we emphasize the importance of the idea beyond the standard BBN,
because fundamental questions of both dark matter and dark energy are not
answered at all.
This book is meant to become a survey of the state of physical cosmology,
including observational and theoretical parts that establish the subject as a mature
physical science and the more notable attempts to improve and extend the picture.
The goal of this book is to present theoretical bases and applications of BBN.
Readers can appreciate the current status of BBN and acquire techniques to calculate
nucleosynthesis. As a result, they obtain a new idea for BBN in the framework
of modern cosmology. The contents include a basic curriculum of physics, that
is, mechanics, thermodynamics, quantum mechanics, and statistical physics. If a
reader is unfamiliar with General Relativity, we recommend to skip complicated
expressions, because he or she can comprehend the fundamental concept of BBN
without the intricate formulae. Thus, most of this book is accessible to people who
have studied physics to an advanced level at university; we hope that not only
graduated students but also undergraduates would become familiar with BBN and
receive inspiration from the early universe.
March 2018"
کتاب های مرتبط
Big-Bang Nucleosynthesis: Thermonuclear History in the Early Universe
Masa-aki Hashimoto, Riou Nakamura, E. P. Berni Ann Thushari, Kenzo Arai, 2018 
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