Physics Blog support: May 2010

Sunday, May 30, 2010

The Virial Theorem in Stellar Astrophysics - G. W. Collins

Reviews:
I bought this book because this is a more understandable book than the Chandrasekhar opus. However, it doesn't get nearly as deep as does Chandrasekhar either. I am a physicist, and I happen to be working on a problem using the Viral Theorem for which I need more info than supplied by Gold stein. I am not willing to slog through Chandrasekhar (Maybe I'm not smart enough for the Chandrasekhar book). Note that the writing/typesetting of this book predates word processing, and it shows. The main pluses for me are two. 1. Collins does a good job of expanding the Gold stein derivation of the Viral Theorem to its integral form. 2. Collin's enthusiasm for the field of Astrophysics is apparent.

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The Fundamentals Of Stellar Astrophysics - Collins G. W.

Product Description

Stellar Physics is a unique work among the growing literature on star formation and evolution. Not only does the author, a leading expert in the field, provide a very thorough description of the current knowledge about stellar physics, but he also deals with equal care about the many open problems in this field of research. A bibliography with well over 650 entries will make this book an unparalleled source of references. Fundamental Concepts and Stellar Equilibrium is the first of two volumes, and each part can be read as an independent work. The second volume treats Stellar Evolution and Stability Together, the volumes provides an extensive introduction to all physical processes that play a role in star formation and evolution. The basic equations describing stellar equilibrium are discussed, and attention is paid to both the theoretical and the numerical aspects.

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Basics of Radio Astronomy for the Goldstone-Apple Valley Radio Telescope

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Turbulence and magnetic fields in astrophysics - Falgarone, Passot

Product Description

The present set of lectures is devoted to magnetohydrodynamic turbulence in astrophysics with strong emphasis on numerical simulations. The book strives for a balance between state-of-the-art reports and a tutorial approach. It is thus particularly suited as an introduction to the field for nonspecialist researchers and postgraduate students, while experienced scientists will find the book to be a comprehensive source of reference for their research.

Product Details

Paperback: 480 pages
Publisher: Springer Berlin Heidelberg (December 28, 2009)
Language: English
ISBN-10: 3642055451
ISBN-13: 978-3642055454

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Planetary Science - The science of planets around stars - G. Cole, M. Woolfson

Product Description

There are many planetary systems other than our own, but it is only through a detailed understanding of the relatively accessible bodies in our solar system that a thorough appreciation of planetary science can be gained. This is particularly pertinent with the recent discovery of extra-solar planets and the desire to understand their formation and the prospect of life on other worlds.

Planetary Science: The Science of Planets Around Stars focuses on the structure of planets and the stars they orbit and the interactions between them. The book is written in two parts, making it suitable for students at different levels and approaching planetary science from differing backgrounds. Twelve independent descriptive chapters reveal our solar system and the diverse bodies it contains, including satellites, planetary rings, asteroids, comets, meteorites, and interstellar dust. These chapters are accompanied by 42 detailed topics that discuss specialized subjects in a quantitative manner and will be essential reading for those in higher level courses. Coverage includes mineralogy, stellar formation and evolution, solar system dynamics, atmospheric physics, planetary interiors, thermodynamics, planetary astrophysics, and exobiology. Problems and answers are also included.

Planetary Science: The Science of Planets Around Stars presents a complete overview of planetary science for students of physics, astronomy, astrophysics, earth sciences, and geophysics. Assuming no prior knowledge of astrophysics or geophysics, this book is suitable for students studying planetary science for the first time.

Paperback: 528 pages
Publisher: Taylor & Francis; 1st edition (April 1, 2002)
Language: English
ISBN-10: 075030815X
ISBN-13: 978-0750308151

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Introduction to Space Physics - M. Kivelson, C. Russell

Product Details

Paperback: 568 pages
Publisher: Cambridge University Press; 1st edition (January 15, 1995)
Language: English
ISBN-10: 0521457149
ISBN-13: 978-0521457149
Amazon Bestsellers Rank: #787,699 in Books

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Handbook Of Space Astronomy And Astrophysics 2d ed- Zombeck

Review

'In its various incarnations it has been a constant companion for my entire scientific career ... Compared to the last edition, the new version of the handbook has almost double the number of pages and represents a considerable expansion of the content of each chapter. Examples of improvement include updated lists of Solar System natural satellites and high-redshift objects. There are also completely new sections such as the list of extra-solar planets, none of which had been detected when the last edition was produced. ... there is a lot of material, particularly that pertaining to the basic tools of an instrument developer and observer in space astronomy, that, to my knowledge, is not usefully collected in any other single volume. It is certainly worth purchasing by anyone wanting a ready reference for basic instrumentation and observational techniques ... I have no doubt that my copy of the 3rd edition will be as well-used as the previous one.' The Observatory

Product Description

Fully updated with data from space-based observations and a comprehensive index and bibliography, this third edition contains the most frequently used information in modern astrophysics. As well as a vast number of tables, graphs, diagrams and formulae it also contains information covering topics including atomic physics, nuclear physics, relativity, plasma physics, electromagnetism, mathematics, probability and statistics, and geophysics. This handbook will be an essential reference for graduate students, researchers and professionals working in astronomy and the space sciences. A website containing extensive supplementary information and databases can be found at www.cambridge.org/9780521782425.

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Thursday, May 20, 2010

Origins - The Quest for our Cosmic Roots - T Yulsman

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Modren cosmolgy

Review

Both John Peacock and George Ellis (no relation!) give excellent summaries of cosmological physics. Peacock's contribution, in particular (cover 100 pages, by far the longest) is masterly, elegantly summarizing recent developments in large-scale structure from the 2nF survey (in which he is involved) to progress in studying fluctuations in the microwave background.
-Richard Ellis

For those who wish to appreciate the breadth of current research in this area, and for those planning to embark on this type of research, the book provides an excellent overview of the current state of the art.
-Professor A. Hibbert, Queen's University, Belfast, Ireland

In short, the book has substantial content of modern cosmology from observational matters to theoretical models as well as from the basics to development. I would recommend this book to those who are working on and interested in this subject.
-Yuan-Zhong Zhang

The editor ties the diverse contributions together in an excellent introductory chapter, tracing the historical development of cosmology … The content is most appropriate for graduate students and researchers. This book is highly recommended for academic collections supporting extensive research in astronomy or astrophysics.
-E-STREAMS, Vol.5, No. 9

This book is a heterogeneous compilation of articles based on lectures, mostly from theorists, describing both the foundations and the present status of cosmology …They are a pleasure to read and may be extremely useful to Ph.D. students and even researchers in other fields … In summary, I think the book is a nice compilation of the status of cosmology in the year 2000. It gives the right perspective of what is to come in the next few years, or even decades.
-Juan Garcia-Bellido, CERN Courier

This book is highly recommended for academic collections supporting extensive research in astronomy or astrophysics.
-E-STREAMS, Vol. 5, No. 9

… the book covers most of the interesting and active areas of cosmological research … at an appropriate level for new postgraduate students. I would recommend this book as an interesting snapshot of ongoing activity.
-Peter Coles, General Relativity and Gravitation

Product Description

Contents Contents. 1 The physics of the early Universe (an overview). 2 An introduction to the physics of cosmology. 3 Cosmological Models. 4 inflationary Cosmology and Creation of Matter in the Universe. References. 5 Supergravity and Cosmology. 6 The Cosmic Microwave Background. References. 7 Dark Matter search with innovative techniques. 8 Signature for signals from the Dark Universe. 9 Neutrino oscillations: a phenomenological overview. 10 Highlights in Modern Observational Cosmology. References. 11 Clustering in the Universe: from Highly Nonlinear Structures to Homogeneity. References. 12 The debate of galaxy space distribution: an overview. References. 13 Gravitational lensing. References. 14 Numerical Simulations in Cosmology. References. Synopsis
This book, based on lectures given to post-graduate students, bring together contributions from a number of outstanding scientists currently working in various research fields in cosmology. Topics covered range over several different aspects of modern cosmology, from observational matters to advanced theoretical speculations.
Readership
This book will be of interest to postgraduate students and researchers in relativity, gravitation, cosmology and astrophysics.

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General Relativity and Cosmology for Undergraduates - J. Norbury

Review

...an excellent high-level textbook that includes a number of topics that are not to be readily found elsewhere. I recommend it very highly for students who have studied General Relativity already... and who would like to gain a deeper mathematical insight into the subject.
Alan Heavens, The Observatory

"... A fairly comprehensive treatise in the field of relativity and cosmology. It covers topics seldom or never seen in textbooks of this kind and is therefore valuable for researchers."
Sigbjorn Hervik, Mathematical Reviews

"... an impressive and coherent account of many aspects of contemporary General Relativity theory."
Contemporary Physics

Product Description

General relativity is a cornerstone of modern physics, and is of major importance in its applications to cosmology. Plebanski and Krasinski are experts in the field and provide a thorough introduction to general relativity, guiding the reader through complete derivations of the most important results. Providing coverage from a unique viewpoint, geometrical, physical and astrophysical properties of inhomogeneous cosmological models are all systematically and clearly presented, allowing the reader to follow and verify all derivations. Many topics are included that are not found in other textbooks.

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Cosmology. The origin and evolution of cosmic structure - Coles P., Lucchin F.

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Cosmological Inflation and Large-Scale Structure - A. Liddle, D. Lyth

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An Introduction to the Science of Cosmology - D. Raine, E. Thomas

Review

"Provides a comprehensive account of the ideas underlying modern cosmology." -- IEE INSPEC

Product Description

This volume is a thorough introduction to modern ideas on cosmology and on the physical basis of the general theory of relativity. The various theories and ideas in 'big bang' cosmology are discussed in detail, providing an insight into current problems. The book is written at an intermediate level. Beyond that of the many elementary books on cosmology, and provides an introduction to the more advanced works and research literature.

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An Introduction to Mathematical Cosmology 2nd ed. - J. Islam

Product Description

This book provides a concise introduction to the mathematical aspects of the origin, structure and evolution of the universe. The book begins with a brief overview of observational and theoretical cosmology, along with a short introduction of general relativity. It then goes on to discuss Friedmann models, the Hubble constant and deceleration parameter, singularities, the early universe, inflation, quantum cosmology and the distant future of the universe. This new edition contains a rigorous derivation of the Robertson-Walker metric. It also discusses the limits to the parameter space through various theoretical and observational constraints, and presents a new inflationary solution for a sixth degree potential. This book is suitable as a textbook for advanced undergraduates and beginning graduate students. It will also be of interest to cosmologists, astrophysicists, applied mathematicians and mathematical physicists.

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An Introduction to cosmology, 3rd Ed - Roos

Product Description

Introduction to Cosmology Second Edition Matts Roos University of Helsinki, Finland This second edition of the very successful Introduction to Cosmology provides an authoritative yet concise study of cosmology at an introductory level. Beginning with elementary aspects, it will lead students on to some of the most advanced concepts, including relativity, cosmic inflation, phase transitions and galaxy formation. Fully illustrated and comprehensively referenced with problems at the end of each chapter, Introduction to Cosmology, Second Edition offers the following new features:
* Thorough examination of the Hubble parameter and the age of the Universe with reference to measurement techniques
* Completely new section on gravitational lenses and other tests of general relativity
* Expanded sections on dark matter, black holes and cosmic microwave background
Praise for the First Edition 'Introduction to Cosmology is first class.Even more students will want to become cosmologists with a book like this.Roos has got it right' -New Scientist 'It is rare to find an elementary discussion of such findings, and the book should prove a useful addition to more astronomically oriented introductory discussions of cosmology.Roos's text serves a useful niche in the undergraduate market'-Physics Today 'It is well recommended for undergraduates of physics or astrophysics'-Popular Astronomy

From the Back Cover

This second edition of the very successful Introduction to Cosmology provides an authoritative yet concise study of cosmology at an introductory level. Beginning with elementary aspects, it will lead students on to some of the most advanced concepts, including relativity, cosmic inflation, phase transitions and galaxy formation. Fully illustrated and comprehensively referenced with problems at the end of each chapter, Introduction to Cosmology, Second Edition offers the following new features:

Thorough examination of the Hubble parameter and the age of the Universe with reference to measurement techniques
Completely new section on gravitational lenses and other tests of general relativity
Expanded sections on dark matter, black holes and cosmic microwave background

Praise for the First Edition ‘Introduction to Cosmology is first class…Even more students will want to become cosmologists with a book like this…Roos has got it right —New Scientist ‘It is rare to find an elementary discussion of such findings, and the book should prove a useful addition to more astronomically oriented introductory discussions of cosmology…Rooss text serves a useful niche in the undergraduate market—Physics Today ‘It is well recommended for undergraduates of physics or astrophysics—Popular Astronomy

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Thursday, May 13, 2010

Newtonian Physics

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Wednesday, May 12, 2010

Electricity and Magnetism

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Discover Physics

Discover Physics is a conceptual physics textbook intended for students in a non mathematical one-semester general-education course. For more information about the book, see its web page. The new version of Discover Physics is Conceptual Physics. I'm no longer actively maintaining Discover Physics, and I recommend that new adopters use Conceptual Physics instead.

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Conceptual Physics

Product Description

Conceptual Physics, Tenth Edition helps readers connect physics to their everyday experiences and the world around them with additional help on solving more mathematical problems. Hewitt's text is famous for engaging readers with analogies and imagery from real-world situations that build a strong conceptual understanding of physical principles ranging from classical mechanics to modern physics. With this strong foundation, readers are better equipped to understand the equations and formulas of physics, and motivated to explore the thought-provoking exercises and fun projects in each chapter. Included in the package is the workbook. Mechanics, Properties of Matter, Heat, Sound, Electricity and Magnetism, Light, Atomic and Nuclear Physics, Relativity. For all readers interested in conceptual physics.

From the Back Cover

Thirty years ago, this best-selling book defined the "conceptual" approach to introductory physics. Today, the Ninth Edition shows how text and media can be integrated to bring physics to life for non-scientists.
Hewitt's book engages readers with analogies and imagery from real-world situations to build a strong conceptual understanding of physical principles ranging from classical mechanics to modern physics. With this strong foundation, readers are better equipped to understand the equations and formulas of physics, and motivated to explore the thought-provoking exercises and fun projects in each chapter. Icons in this new edition direct readers to The Physics Place web site (physicsplace) where they will find interactive and animated tutorials, video demonstrations, and hundreds of problems and activities. This new text-media combination gives readers more of what they need -whether it's animated explanations or interactive exercises -to make the connections between the concepts of physics and their everyday world. For college instructors and students. --This text refers to an out of print or unavailable edition of this title.

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The Galactic Black Hole Lectures on General Relativity and Astrophysics - Falcke, hehl

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Black Holes - Don Nardo

Product Details

Pub. Date: November 2003
Publisher: Cengage Gale
Format: Hardcover, 112pp
Age Range: 12 and up
Lexile: 1310L What’s This?

Series: The Lucent Science and Technology Library
ISBN-13: 9781590181010
ISBN: 1590181018

Annotation

Discusses the history and current state of scientific understanding of black holes, exploring what they are, how they are formed, potential uses, and what they tell us about the fate of the universe.

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An Introduction To Black Holes Information And The String Theory - Susskind, Lindesay

Part 1: Black Holes and Quantum Mechanics 1

1.T he Schwarzschild Black Hole 3
1.1 Schwarzschild Coordinates . . . . . . . . . . . . . . . . . . . 3
1.2 Tortoise Coordinates . . . . . . . . . . . . . . . . . . . . . . 7
1.3 Near Horizon Coordinates (Rindler space) . .. . .. .. .. 8
1.4 Kruskal–Szekeres Coordinates .. ... .. .. ... .. .. . 10
1.5 PenroseDiagrams . . . . . . . . . . . . . . . . . . . . . . . 14
1.6 Formation of a Black Hole . .. .. . .. .. .. . .. .. .. 15
1.7 Fidos and Frefos and the Equivalence Principle .. .. .. . 21
2.Scalar Wave Equation in a Schwarzschild Background 25
2.1 Near the Horizon . . . . . . . . . . . . . . . . . . . . . . . . 28
3.Quantum Fields in Rindler Space 31
3.1 Classical Fields . . . . . . . . . . . . . . . . . . . . . . . . . 31
3.2 Entanglement . . . . . . . . . . . . . . . . . . . . . . . . . . 32
3.3 Review of the DensityMatrix . . . . . . . . . . . . . . . . . 34
3.4 The Unruh DensityMatrix . . . . . . . . . . . . . . . . . . 36
3.5 Proper Temperature . . . . . . . . . . . . . . . . . . . . . . 39
4.Entropy of the Free Quantum Field in Rindler Space 43
4.1 Black Hole Evaporation .. .. .. . .. .. .. . .. .. .. 48
xiii
xiv Black Holes, Information, and the String Theory Revolution
5.Thermodynamics of Black Holes 51
6.C harged Black Holes 55
7.The Stretched Horizon 61
8.The Laws of Nature 69
8.1 Information Conservation .. .. . .. .. .. . .. .. .. 69
8.2 Entanglement Entropy . . . . . . . . . . . . . . . . . . . . 71
8.3 Equivalence Principle . . . . . . . . . . . . . . . . . . . . 77
8.4 QuantumXerox Principle . . . . . . . . . . . . . . . . . . 79
9.The Puzzle of Information Conservation in Black Hole
Environments 81
9.1 A BrickWall? . . . . . . . . . . . . . . . . . . . . . . . . . 84
9.2 Black Hole Complementarity .. . .. .. .. . .. .. .. 85
9.3 Baryon Number Violation . . . . . . . . . . . . . . . . . . 89
10.Horizons and the UV/IR Connection 95
Part 2: Entropy Bounds and Holography 99
11.Entropy Bounds 101
11.1 Maximum Entropy . .. .. .. . .. .. .. . .. .. .. 101
11.2 Entropy on Light-like Surfaces ... .. .. ... .. .. . 105
11.3 Friedman–Robertson–Walker Geometry . .. . .. .. .. 110
11.4 Bousso’s Generalization .. .. ... .. .. ... .. .. . 114
11.5 de Sitter Cosmology . .. .. .. . .. .. .. . .. .. .. 119
11.6 Anti de Sitter Space . . . . . . . . . . . . . . . . . . . . . 123
12.The Holographic Principle and Anti de Sitter Space 127
12.1 The Holographic Principle .. ... .. .. ... .. .. . 127
12.2 AdS Space . . . . . . . . . . . . . . . . . . . . . . . . . . 128
12.3 Holography in AdS Space .. .. . .. .. .. . .. .. .. 130
12.4 The AdS/CFT Correspondence . .. .. .. . .. .. .. 133
12.5 The Infrared Ultraviolet Connection .. .. ... .. .. . 135
12.6 Counting Degrees of Freedom ... .. .. ... .. .. . 138
Contents xv
13.Black Holes in a Box 141
13.1 The Horizon . . . . . . . . . . . . . . . . . . . . . . . . . 144
13.2 Information and the AdS Black Hole .. .. . .. .. .. 144
Part 3: Black Holes and Strings 149
14.Strings 151
14.1 Light Cone Quantum Mechanics . .. .. .. . .. .. .. 153
14.2 Light Cone String Theory . . . . . . . . . . . . . . . . . 156
14.3 Interactions . . . . . . . . . . . . . . . . . . . . . . . . . 159
14.4 Longitudinal Motion . .. .. ... .. .. ... .. .. . 161
15.Entropy of Strings and Black Holes 165
Conclusions 175
Bibliography 179
Index 181

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Tuesday, May 11, 2010

Phillip's Astronomy Encyclopedia, revised

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Philip's Atlas of the Universe, revised edition

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Monday, May 10, 2010

Minding the Heavens - The Story of Our Discovery of the Milky Way - L. belkora

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Idiots Guide to Astronomy 2nd ed. - C. dePree, A. Axelrod

Contents at a Glance

Part 1: Finding Our Place in Space 1

1 Naked Sky, Naked Eye: Finding Your Way in the Dark 3
Finding your way around the night sky. No telescope
necessary.
2 Ancient Evenings: The First Watchers 17
What the ancient astronomers saw, thought, and said.
3 The Unexplained Motions of the Heavens 31
Puzzles of planetary motion: early thoughts on the subject.
4 Astronomy Reborn: 1543–1687 47
Everything (well, not really) you need to know about
Copernicus, Tycho Brahe, Kepler, Galileo, and Newton.

Part 2: Now You See It (Now You Don’t) 63

5 The Art of Collecting Light (with a Telescope) 65
Telescopes: what they see and how they work.
6 You and Your Telescope 81
A guide to choosing and using binoculars and telescopes.
7 Over the Rainbow 101
Electromagnetic radiation: what it is, how it travels, and
what it does.
8 Seeing in the Dark 117
Alternatives to visible-light astronomy: radio, infrared,
ultraviolet, and high energy.
9 Space Race: From Sputnik to the International
Space Station 131
A brief history of space exploration.

Part 3: A Walk Around the Block 147

10 The Moon: Our Closest Neighbor 149
All about Earth’s moon.
11 Solar System Home Movie 161
How our solar system was born and developed.
12 Solar System Family Snapshot 173
A tour through our solar system.
13 So Close and Yet So Far: The Inner Planets 189
The lowdown on Mercury, Venus, and Mars.
14 Great Balls of Gas! The Outer Planets 205
All about Uranus, Neptune, Jupiter, and Saturn.
15 The Far End of the Block 221
The moons and rings of the jovian planets, and the
story of Pluto.

Part 4: To the Stars 235
16 Our Star 237

We explore the sun.
17 Of Giants and Dwarfs: Stepping Out into the Stars 251
Observing, measuring, and classifying stars.
18 Stellar Careers 267
How stars evolve—and how they end their lives.
19 Black Holes: One-Way Tickets to Eternity 279
Stellar endgames: neutron stars, black holes, and the
strange effects they produce.
20 Stellar Nurseries 289
How stars are created.

Part 5: Way Out of This World 301

21 The Milky Way: Much More Than a Candy Bar 303
A tour of our home Galaxy.
22 A Galaxy of Galaxies 317
Observing, measuring, and classifying galaxies.
23 Moving Out of Town 331
Active versus normal galaxies: Seyfert and radio galaxies,
plus quasars
.
Part 6: The Big Questions 341

24 Table for One? 343
The odds on life beyond Earth and on other civilizations
in the Milky Way.
25 What About the Big Bang? 359
How it all began (we think).
26 (How) Will It End? 369
Is the universe infinite or finite? Eternal or mortal? Will it
end—and if so, how?

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High-Energy Neutrino Astronomy - F. Halzen

Contents
I. The Highest Energy Particles: Cosmic Rays, Photons and Neutrinos 4
A. The New Astronomy 4
B. The Highest Energy Cosmic Rays: Facts 6
C. The Highest Energy Cosmic Rays: Fancy 8
1. Acceleration to > 100 EeV? 8
2. Are Cosmic Rays Really Protons: the GZK Cutoff? 10
3. Could Cosmic Rays be Photons or Neutrinos? 11
D. A Three Prong Assault on the Cosmic Ray Puzzle 13
1. Giant Cosmic Ray Detectors 13
2. Gamma rays from Cosmic Accelerators 14
3. Neutrinos from Cosmic Accelerators 17
II. High-energy Neutrino Telescopes 19
A. Observing High-energy Neutrinos 19
B. Large Natural Cerenkov Detectors 22
1. Baikal, ANTARES, Nestor and NEMO: Northern Water 25
2. AMANDA: Southern Ice 28
3. IceCube: A Kilometer-Scale Neutrino Observatory 33
C. EeV Neutrino Astronomy 35
III. Cosmic Neutrino Sources 37
A. A List of Cosmic Neutrino Sources 37
B. Gamma Ray Bursts: A Detailed Example of a Generic Beam Dump 39
1. GRB Characteristics 39
2. A Brief History of Gamma Ray Bursts 40
3. GRB Progenitors? 41
4. Fireball Dynamics 42
5. Ultra High-energy Protons From GRB? 47
6. Neutrino Production in GRB: the Many Opportunities 49
7. Thermal MeV Neutrinos from GRB 50
8. Shocked Protons: PeV Neutrinos 51
2
9. Stellar Core Collapse: Early TeV Neutrinos 53
10. UHE Protons From GRB: EeV Neutrinos 55
11. The Decoupling of Neutrons: GeV Neutrinos 57
12. Burst-To-Burst Fluctuations and Neutrino Event Rates 59
13. The Effect of Neutrino Oscillations 61
C. Blazars: the Sources of the Highest Energy Gamma rays 62
1. Blazar Characteristics 62
2. Blazar Models 63
3. Highly Shocked Protons: EeV Blazar Neutrinos 64
4. Moderately Shocked Protons: TeV Blazar Neutrinos 66
D. Neutrinos Associated With Cosmic Rays of Top-Down Origin 67
1. Nucleons in Top-Down Scenarios 68
2. Neutrinos in Top-Down Scenarios 69
IV. The Future for High-energy Neutrino Astronomy 71
Acknowledgments 71
References

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Sunday, May 9, 2010

Schaum's Easy Outlines - College Physics Crash Course - F. Bueche, E. Hecht

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Principles of Modern Physics - N. Ashby, S. Miller

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Physics Formulary - J. Wevers

Contents of book:

1. Mechanics
2. Electricity & Magnetism
3. Relativity
4. Oscillations
5. Waves
6. Optics
7. Statistical physics
8. Thermodynamics
9. Transport phenomena
10. Quantum physics11. Plasma physics
12. Solid state physics
13. Theory of groups
14. Nuclear physics
15. Quantum field theory & Particle physics
16. Astrophysics

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