Big-Bang Nucleosynthesis
Thermonuclear History in the Early Universe
Paperback Engels 2018 9789811329340Samenvatting
The book reviews theories of nucleosynthesis in big-bang cosmology. It introduces the standard model of cosmology, astronuclear reactions, numerical techniques for nucleosynethsis, and describes in detail the theories that go beyond the standard models, enabling readers to grasp the physics of big-bang nucleosynthesis on the basis of cosmology, general relativity and nuclear physics. In addition, the authors provide insights into the theoretical constrains required by observations. As a consequence, readers find out that big-bang nucleosynthesis still has windows opened to another cosmology.
Although the book focuses on highly advanced topics, it is concisely written and mathematical derivations are explained step-by-step, making it accessible to graduate readers. Thus it is a short monograph appealing to a variety of readers interested in nucleosynthesis of big-bang cosmology.
Specificaties
Lezersrecensies
Inhoudsopgave
<p>1.1 Historical Review </p>
<p>1.2 Motivation </p>
1.3 Non-standard Approaches to BBN <p></p>
<p>1.4 Structure of This Text </p>
<p>References </p>
<p>2 The Standard Model of Cosmology </p>
<p>2.1 Theory of General Relativity </p>
<p>2.2 The Robertson-Walker Metric </p>
<p>2.3 The Friedmann Equation </p>
2.4 Astronuclear Reactions <p></p>
<p>2.4.1 Thermonuclear reaction rates </p>
<p>2.4.2 Nonresonant reactions </p>
<p>2.4.3 Resonant reactions </p>
<p>2.4.4 Inverse reactions </p>
<p>2.4.5 Rates of electron capture and b -decay </p>
2.4.6 Reaction rates and their uncertainties <p></p>
<p>2.5 Standard Big Bang Nucleosynthesis </p>
<p>2.5.1 Overview of SBBN </p>
<p>2.5.2 Numerical calculations of SBBN </p>
<p>2.5.3 Observed abundance of light elements </p>
<p>2.5.4 Neutron lifetime </p>
<p>2.6 Another Observational Success of the Standard Model </p>
<p>References </p>
<p>3 Theories Beyond The Standard Model </p>
<p>3.1 Lepton Asymmetry </p>
3.1.1 Reaction rates between neutrons and protons <p></p>
<p>3.1.2 BBN with degenerate neutrinos </p>
<p>3.1.3 c2 analysis </p>
<p>3.2 BBN under the Brane Cosmology </p>
<p>3.2.1 Five-dimensional Einstein tensor </p>
<p>3.2.2 Friedmann-like equation </p>
<p>3.2.3 BBN on the brane </p>
<p>3.3 Phenomenological Variable L Models </p>
References <p></p>
<p>4 Modified Brans-Dicke Theory </p>
<p>4.1 Dynamics of BDL model </p>
<p>4.2 Parameters in the BDL model </p>
<p>4.3 Characteristics of a flat universe </p>
4.4 Constraints on the BDL Model <p></p>
<p>4.4.1 Constraints from BBN </p>
<p>4.4.2 Constraints from SNe Ia </p>
<p>References </p>
<p>5 Appendix A: Einstein Tensor </p>
<p>6 Appendix B: Thermal History in an Early Universe </p>
7 Appendix C: Numerical Approach to Calculate Nucleosynthesis <p></p>
<p>References </p>
<p>8 Appendix D: Some Useful Numbers </p>
<p>Index </p>
<p><br></p><p></p>
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