PACKT (406)
Text Book 교재용원서 (673)
컴퓨터공학 (822)
컴퓨터 일반도서 (560)
전기,전자공학 (715)
기계공학 (201)
재료공학 (34)
에너지공학 (65)
의용공학 (40)
생명과학 (229)
물리학 (427)
지구과학 (74)
천문학 (39)
수학 (103)
통계학 (46)
경영학 (42)
산업공학 (12)
사회복지학 (5)
심리학 (247)
교육학 (2)
화학 (5)
기타 (64)
특가할인도서 (택배비별도) (87)

> > Text Book 교재용원서 > 물리학 > 기타 물리학도서

이미지를 클릭하시면 큰 이미지를 보실 수 있습니다.
Introduction to Stellar Astrophysics
출판사 : Wiley
저 자 : LeBlanc
ISBN : 9780470699560
발행일 : 2010-06
도서종류 : 외국도서
발행언어 : 영어
페이지수 : 352
판매가격 : 55,000원
판매여부 : 재고확인요망
주문수량 : [+]수량을 1개 늘입니다 [-]수량을 1개 줄입니다

My Wish List 에 저장하기
   Introduction to Stellar Astrophysics 목차
Chapter 1 Basic Concepts 1
1.1 Introduction 1
1.2 The Electromagnetic Spectrum 3
1.3 Blackbody Radiation 5
1.4 Luminosity, Effective Temperature, Flux and Magnitudes 8
1.5 Boltzmann and Saha Equations 13
1.6 Spectral Classification of Stars 21
1.7 The Hertzsprung-Russell Diagram 27
1.8 Summary 30
1.9 Exercises 31
Chapter 2 Stellar Formation 35
2.1 Introduction 35
2.2 Hydrostatic Equilibrium 36
2.3 The Virial Theorem 40
2.4 The Jeans Criterion 46
2.5 Free-Fall Times† 52
2.6 Pre-Main-Sequence Evolution† 54
2.7 Summary 57
2.8 Exercises 57
Chapter 3 Radiative Transfer in Stars 61
3.1 Introduction 61
3.2 Radiative Opacities 62
3.2.1 Matter-Radiation Interactions 62
3.2.2 Types of Radiative Opacities 64
3.3 Specific Intensity and Radiative Moments 69
3.4 Radiative Transfer Equation 77
3.5 Local Thermodynamic Equilibrium 81
3.6 Solution of the Radiative-Transfer Equation 82
3.7 Radiative Equilibrium 90
3.8 Radiative Transfer at Large Optical Depths 91
3.9 Rosseland and Other Mean Opacities 94
3.10 Schwarzschild-Milne Equations†† 97
3.11 Demonstration of the Radiative-Transfer Equation† 99
3.12 Radiative Acceleration of Matter and Radiative Pressure† 100
3.12.1 Radiative Acceleration of Matter 100
3.12.2 Radiative Pressure 103
3.13 Summary 104
3.14 Exercises 105
Chapter 4 Stellar Atmospheres 109
4.1 Introduction 109
4.2 The Grey Atmosphere 110
4.2.1 The Temperature Profile in a Grey Atmosphere 111
4.2.2 Radiative Flux in a Grey Atmosphere†† 117
4.3 Line Opacities and Broadening 119
4.3.1 Natural Broadening 120
4.3.2 Doppler Broadening 122
4.3.3 Pressure Broadening 130
4.3.4 Stimulated Emission and Masers 132
4.3.5 Einstein Coefficients†† 134
4.4 Equivalent Width and Formation of Atomic Lines 137
4.4.1 Equivalent Width 137
4.4.2 Formation of Weak Atomic Lines 139
4.4.3 Curve of Growth† 142
4.5 Atmospheric Modelling 143
4.5.1 Input Data and Approximations 143
4.5.2 Algorithm for Atmospheric Modelling†† 145
4.5.3 Example of a Stellar Atmosphere Model 148
4.5.4 Temperature-Correction Procedure†† 150
4.6 Summary 151
4.7 Exercises 152
Chapter 5 Stellar Interiors 155
5.1 Introduction 155
5.2 Equations of Stellar Structure 156
5.2.1 Hydrostatic Equilibrium Equation 156
5.2.2 Equation of Mass Conservation 156
5.2.3 Energy-Transport Equation 159
5.2.4 Equation of Energy Conservation 160
5.2.5 Other Ingredients Needed 161
5.3 Energy Transport in Stars 163
5.3.1 Monochromatic Radiative Flux in Stellar Interiors 164
5.3.2 Conduction 166
5.3.3 Convection 167
5.3.3.1 General Description of Convection 167
5.3.3.2 The Schwarzschild Criterion for Convection† 168
5.3.3.3 The Mixing-Length Theory†† 172
5.3.3.4 Convective Equilibrium† 176
5.4 Polytropic Models 176
5.5 Structure of the Sun 182
5.6 Equation of State 184
5.6.1 Introduction 184
5.6.2 The Ideal Gas 185
5.6.3 Degeneracy 189
5.6.4 Radiation Pressure 191
5.7 Variable Stars and Asteroseismology 191
5.7.1 Variable Stars 191
5.7.2 Asteroseismology† 197
5.7.3 Basic Physics Behind Period-Luminosity Relations† 200
5.8 Summary 202
5.9 Exercises 203
Chapter 6 Nucleosynthesis and Stellar Evolution 205
6.1 Introduction 205
6.2 Generalities Concerning Nuclear Fusion 206
6.3 Models of Nucleus† 211
6.3.1 The Liquid-Drop Model 211
6.3.2 The Shell Model 214
6.4 Basic Physics of Nuclear Fusion 216
6.5 Main-Sequence Burning 218
6.5.1 Proton-Proton Chains 220
6.5.2 CNO Cycles 221
6.5.3 Lifetime of Stars on the Main Sequence 224
6.5.4 The Solar Neutrino Problem† 226
6.6 Helium-Burning Phase 230
6.7 Advanced Nuclear Burning 232
6.7.1 Carbon-Burning Phase 233
6.7.2 Neon-Burning Phase 234
6.7.3 Oxygen-Burning Phase 234
6.7.4 Silicon-Burning Phase 235
6.8 Evolutionary Tracks in the H-R Diagram 236
6.8.1 Generalities 236
6.8.2 Evolution of Low-Mass Stars (M* ≤ 0.5 M<$$$>) 240
6.8.3 Evolution of a 1 M<$$$> Star: Our Sun 241
6.8.4 Evolution of Masive Stars (M* ≥ 10M<$$$>) 245
6.9 Stellar Clusters 248
6.9.1 Stellar Populations, Galaxies and the Milky Way 248
6.9.2 Open Clusters 251
6.9.3 Globular Clusters 252
6.9.4 Age of Stellar Clusters 253
6.9.5 Distance to Stars and Stellar Clusters 255
6.10 Stellar Remnants 257
6.10.1 White Dwarfs 257
6.10.2 Neutron Stars, Pulsars and Magnetars 259
6.10.3 Black Holes 262
6.11 Novae and Supernovae† 268
6.12 Heavy Element Nucleosynthesis: s, r and p Processes† 273
6.12.1 The Slow and Rapid Processes 273
6.12.2 The p Process 276
6.13 Nuclear Reaction Cross Sections and Rates†† 277
6.14 Summary 281
6.15 Exercises 281
Chapter 7 Chemically Peculiar Stars and Diffusion† 285
7.1 Introduction and Historical Background 285
7.2 Chemically Peculiar Stars 287
7.2.1 Am Stars 288
7.2.2 Ap Stars 288
7.2.3 HgMn Stars 289
7.2.4 He-Abnormal Stars 289
7.3 Atomic Diffusion Theory†† 290
7.4 Radiative Accelerations†† 297
7.5 Other Transport Mechanisms†† 302
7.5.1 Light-Induced Drift 303
7.5.2 Ambipolar Diffusion of Hydrogen 304
7.6 Summary 305
7.7 Exercises 305
Answers to Selected Exercises 307
Appendix A Physical Constants 309
Appendix B Units in the cgs and SI Systems 311
Appendix C Astronomical Constants 313
Appendix D Ionisation Energies (in eV) for the First Five Stages of Ionisation for the Most Important Elements 315
Appendix E Solar Abundances for the Most Important Elements 317
Appendix F Atomic Masses 319
Appendix G Physical Parameters for Main-Sequence Stars 321
Appendix H Periodic Table of the Elements 323
References 325
Bibliography 327
Index 329
   도서 상세설명   

An Introduction to Stellar Astrophysics aspires to provide the reader with an intermediate knowledge on stars whilst focusing mostly on the explanation of the functioning of stars by using basic physical concepts and observational results.

The book is divided into seven chapters, featuring both core and optional content:

Basic concepts
Stellar Formation
Radiative Transfer in Stars
Stellar Atmospheres
Stellar Interiors
Nucleosynthesis and Stellar Evolution and
Chemically Peculiar Stars and Diffusion.
Student-friendly features include:

Detailed examples to help the reader better grasp the most important concepts
A list of exercises is given at the end of each chapter and answers to a selection of these are presented.
Brief recalls of the most important physical concepts needed to properly understand stars.
A summary for each chapter
Optional and advanced sections are included which may be skipped without interfering with the flow of the core content.
This book is designed to cover the most important aspects of stellar astrophysics inside a one semester (or half-year) course and as such is relevant for advanced undergraduate students following a first course on stellar astrophysics, in physics or astronomy programs. It will also serve as a basic reference for a full-year course as well as for researchers working in related fields.

  교육용 보조자료   
작성된 교육용 보조자료가 없습니다.