Relativity, astrophysics and cosmology: 2
Gespeichert in:
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| Format: | Buch |
| Sprache: | English |
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Weinheim
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(2008)
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX S., S. 539 - 1097 Ill., graph. Darst. 25 cm |
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Datensatz im Suchindex
| _version_ | 1805090488842190848 |
|---|---|
| adam_text |
XIII
Volume
II
4 Stellar
Structure
and Evolution
539
4.1
Stars and Star Clusters
539
4.1.1
General Properties of Main-sequence Stars
539
4.1.2
Stellar Atmospheres and Spectra
549
4.1.3
The Hertzsprung-Russell Diagram
552
4.1.4
Star Clusters
554
4.2
Thermonuclear Fusion in Stars
557
4.2.1
The Physics of Nuclear Fusion
559
4.2.2
Cross-section and Reaction Rate
562
4.2.3
Barrier Penetration
565
4.2.4
Thermonuclear Fusion Rates
567
4.2.5
Hydrogen Burning
570
4.2.6
Solar Neutrinos
576
4.2.7
Helium Burning
587
4.2.8
Advanced Burning Stages
591
4.2.9
Neutrino Emission by Hot Stars
595
4.3
Heat Transfer in Stars
597
4.3.1
Heat Transfer by Random Motion
597
4.3.2
Sources of Radiative Opacity
601
4.3.3
Heat Transfer by Convection
603
4.4
Stellar Structure
606
4.4.1
The Clayton Model
606
4.4.2
The Polytropic Model
610
4 A3
White Dwarfs
616
4.4.4
Cooling of White Dwarfs
621
4.5
Stellar Evolution Beyond the Main Sequence 62a
4.5.1
Evolution of
1ΜΘ
Stars
625
4.5.2
Evolution of 5MS Stars
628
4.5.3
Evolution of 25M© Stars
631
4.5
A Core Collapse and Supernova Explosion
633
4.5.5
Supernova 1987A
638
4.5.6
Neutron Stars
643
Bibliography
653
5
Astrophysical Implications of General Relativity
655
5.1
Experimental Tests of General Relativity
655
5.2
The
Schwarzschild
Metric
661
5.2.1
Birkhoff's Theorem
665
5.2.2
The
Schwarzschild
Solution
666
5.3
Perihelion Advance
667
XIV
5.4
Deflection of Light in Weak Fields
673
5.5
Radar Echo Delay
675
5.6
The
Eötvös
Experiment
677
5.7
Spin Precession in a Gravitational Field
681
5.7.1 *
Fermi-Walker Transport
684
5.7.2 *
Geodetic Precession
685
5.8
Field Equations for Stellar Structure
689
5.8.1
Buchdahl's Theorem
692
5.9
Black Holes and Gravitational Collapse
694
5.9.1
Evolution of the Black Hole Idea
694
5.9.2 Schwarzschild
Black Holes
696
5.9.3
Eddington-Finkelstein Coordinates
699
5.9.4
Gravitational Collapse
702
5.9.5
Geodesic Motion and Black Hole Accretion
703
5.9.6
Rotating (Kerr) Black Holes
706
5.9.7
Kerr Horizons and Ergosphere
709
5.9.8
Dragging of
Inerţial
Frames
711
5.9.9
Thermodynamics of Black Holes
714
5.9.10
Hawking Radiation
718
5.9.11
Observational Evidence for Black Holes
720
5.9.12
Cygnus X-l
724
5.9.13 Supermassive
Black Holes in Galactic Nuclei
727
5.10
Gravitational Radiation
733
5.10.1
The Linearized Theory of Gravity
735
5.10.2
Gauge Freedom in General Relativity
740
5.10.3
Plane-wave Solutions
742
5.10.4
The Effect of Gravitational Waves on Free Particles
747
5.10.5
The Energy-Momentum Pseudotensor
751
5.10.6
Emission of Gravitational Radiation
756
5.10.7
Radiation from a Binary Star System
762
5.10.8
The Binary Pulsar PSR
1913+16 769
5.10.9
Gravitational Waves from Collisions
779
5.10.10
Gravitational Waves from Spinning Masses
782
5.10.11
Sources and Detectors of Gravitational Waves
784
5.11
The Post-Newtonian Approximation
800
5.11.1
Field Equations in the PN Approximation
801
5.11.2
Gauge Conditions and Conservation Laws
809
5.11.3
Particles and Photons in a Post-Newtonian Field
810
5.11.4
Asymptotic Fields
812
5.11.5
Gravitomagnetism
815
5.11.6 *
Orbiting Gyroscope in the PN Approximation
819
5.11.7
The Geodetic and Lense-Thirring Effects S22
XV
5.12 *
Symmetries (Isometries) of a Metric
825
5.12.1
Killing Vectors and the Lie Derivative
826
5.12.2
Stationary and Static Metrics
832
5.12.3
Maximally Symmetric Spaces
835
5.12.4
Gaussian Curvature and
Theorema
Egregium
839
5.13 *
The Weyl
Conformai
Tensor
842
Bibliography
846
A Physical Units and Maxwell's Electrodynamics
849
A.I The Natural System of Units
850
A.2 Units in Electromagnetic Theory
851
A.3 Miscellaneous Units
854
A.4 Maxwell's Equations
856
A.5 The
Lorentz
Force
862
A.6 The Electromagnetic Field Tensor
863
A.
7
Co variance of Maxwell's Theory
868
A.
8
Gauge
Invariance
of Electrodynamics
871
A.9 The Angular Momentum of Light
874
A.10 The Electromagnetic Stress Tensor
878
A.
11
Poynting's Theorem
881
A.
12
Plane Electromagnetic Waves
884
A.13 The Electromagnetic Stress-Energy-Momentum Tensor
887
A.14 Invariants of the Electromagnetic Field
891
A.
15
Electromagnetic Energy-Momentum Four-Vector
893
A.
16
Compton Scattering
897
A.17 Lagrangian Field Theory
900
A.18 Symmetries and Conservation Laws in Electrodynamics
906
A.19 Covariant Form of Integral Conservation Laws
910
A.20
Liénard-Wiechert
Potentials
916
A.21 Electromagnetic Fields of a Point Charge
929
A.22 Radiation by Moving Charges
922
A.22.1 The velocity and acceleration are parallel
{ß\\ß) 923
A.22.2 The acceleration is perpendicular to the velocity (jSJ-jS)
924
A.23 Relativistic Generalization of Larmor's Formula
925
A.24 Synchrotron Radiation
929
A.25 Astronomical Sources of Synchrotron Radiation
934
A.26 Inverse Compton Scattering
938
A.27 Green's Functions and Retarded Potentials
942
A.28 Radiation from a Localized Source
945
A.29 Pulsar Spin-down
950
Bibliography
952
XVI
В
Fundamentals of Elementary Particle Physics
953
B.I The Standard Model
953
B.2 Electromagnetic Interactions
960
B.3 Strong Interactions
967
B.4 Weak Interactions
970
B.5 The Electroweak Connection
974
B.6 The Dirac Equation and its Implications
981
B.7 Gauge Field Theory
1008
Bibliography
1022
С
Elements of Statistical Mechanics and Thermodynamics
1023
C.I The Boltzmann Distribution
1023
C.2
Blackbody
Radiation
1027
C.3 The Bose-Einstein and Fermi-Dirac Distributions
1032
C.4 Ideal Gas Law and Maxwell's Velocity Distribution
1037
C.5 Conservation of Entropy
1040
C.6 The Physical Meaning of Entropy
1042
C.7 The First and Second Laws of Thermodynamics
1044
C.8 The Chemical Potential
1045
C.9 Heat Capacity
1047
CIO Adiabatic Expansion
1047
C.ll Degenerate Fermion Systems
1049
C.12 Ideal Electron Gas at Zero Temperature
1053
Bibliography
1055
D
The Saha Equation
1057
E
Nuclear Statistical Equilibrium
1059
F Liouville's
Theorem and the Boltzmann Equation
1061
G
Selected Integrals in Statistical Physics
1063
H
Newtonian Gravity
1071
Index 1083
Sections indicated by an asterisk
(*)
lie somewhat out of the main line of
presentation, and may be omitted in a first reading. |
| adam_txt |
XIII
Volume
II
4 Stellar
Structure
and Evolution
539
4.1
Stars and Star Clusters
539
4.1.1
General Properties of Main-sequence Stars
539
4.1.2
Stellar Atmospheres and Spectra
549
4.1.3
The Hertzsprung-Russell Diagram
552
4.1.4
Star Clusters
554
4.2
Thermonuclear Fusion in Stars
557
4.2.1
The Physics of Nuclear Fusion
559
4.2.2
Cross-section and Reaction Rate
562
4.2.3
Barrier Penetration
565
4.2.4
Thermonuclear Fusion Rates
567
4.2.5
Hydrogen Burning
570
4.2.6
Solar Neutrinos
576
4.2.7
Helium Burning
587
4.2.8
Advanced Burning Stages
591
4.2.9
Neutrino Emission by Hot Stars
595
4.3
Heat Transfer in Stars
597
4.3.1
Heat Transfer by Random Motion
597
4.3.2
Sources of Radiative Opacity
601
4.3.3
Heat Transfer by Convection
603
4.4
Stellar Structure
606
4.4.1
The Clayton Model
606
4.4.2
The Polytropic Model
610
4 A3
White Dwarfs
616
4.4.4
Cooling of White Dwarfs
621
4.5
Stellar Evolution Beyond the Main Sequence 62a
4.5.1
Evolution of
1ΜΘ
Stars
625
4.5.2
Evolution of 5MS Stars
628
4.5.3
Evolution of 25M© Stars
631
4.5
A Core Collapse and Supernova Explosion
633
4.5.5
Supernova 1987A
638
4.5.6
Neutron Stars
643
Bibliography
653
5
Astrophysical Implications of General Relativity
655
5.1
Experimental Tests of General Relativity
655
5.2
The
Schwarzschild
Metric
661
5.2.1
Birkhoff's Theorem
665
5.2.2
The
Schwarzschild
Solution
666
5.3
Perihelion Advance
667
XIV
5.4
Deflection of Light in Weak Fields
673
5.5
Radar Echo Delay
675
5.6
The
Eötvös
Experiment
677
5.7
Spin Precession in a Gravitational Field
681
5.7.1 *
Fermi-Walker Transport
684
5.7.2 *
Geodetic Precession
685
5.8
Field Equations for Stellar Structure
689
5.8.1
Buchdahl's Theorem
692
5.9
Black Holes and Gravitational Collapse
694
5.9.1
Evolution of the Black Hole Idea
694
5.9.2 Schwarzschild
Black Holes
696
5.9.3
Eddington-Finkelstein Coordinates
699
5.9.4
Gravitational Collapse
702
5.9.5
Geodesic Motion and Black Hole Accretion
703
5.9.6
Rotating (Kerr) Black Holes
706
5.9.7
Kerr Horizons and Ergosphere
709
5.9.8
Dragging of
Inerţial
Frames
711
5.9.9
Thermodynamics of Black Holes
714
5.9.10
Hawking Radiation
718
5.9.11
Observational Evidence for Black Holes
720
5.9.12
Cygnus X-l
724
5.9.13 Supermassive
Black Holes in Galactic Nuclei
727
5.10
Gravitational Radiation
733
5.10.1
The Linearized Theory of Gravity
735
5.10.2
Gauge Freedom in General Relativity
740
5.10.3
Plane-wave Solutions
742
5.10.4
The Effect of Gravitational Waves on Free Particles
747
5.10.5
The Energy-Momentum Pseudotensor
751
5.10.6
Emission of Gravitational Radiation
756
5.10.7
Radiation from a Binary Star System
762
5.10.8
The Binary Pulsar PSR
1913+16 769
5.10.9
Gravitational Waves from Collisions
779
5.10.10
Gravitational Waves from Spinning Masses
782
5.10.11
Sources and Detectors of Gravitational Waves
784
5.11
The Post-Newtonian Approximation
800
5.11.1
Field Equations in the PN Approximation
801
5.11.2
Gauge Conditions and Conservation Laws
809
5.11.3
Particles and Photons in a Post-Newtonian Field
810
5.11.4
Asymptotic Fields
812
5.11.5
Gravitomagnetism
815
5.11.6 *
Orbiting Gyroscope in the PN Approximation
819
5.11.7
The Geodetic and Lense-Thirring Effects S22
XV
5.12 *
Symmetries (Isometries) of a Metric
825
5.12.1
Killing Vectors and the Lie Derivative
826
5.12.2
Stationary and Static Metrics
832
5.12.3
Maximally Symmetric Spaces
835
5.12.4
Gaussian Curvature and
Theorema
Egregium
839
5.13 *
The Weyl
Conformai
Tensor
842
Bibliography
846
A Physical Units and Maxwell's Electrodynamics
849
A.I The Natural System of Units
850
A.2 Units in Electromagnetic Theory
851
A.3 Miscellaneous Units
854
A.4 Maxwell's Equations
856
A.5 The
Lorentz
Force
862
A.6 The Electromagnetic Field Tensor
863
A.
7
Co variance of Maxwell's Theory
868
A.
8
Gauge
Invariance
of Electrodynamics
871
A.9 The Angular Momentum of Light
874
A.10 The Electromagnetic Stress Tensor
878
A.
11
Poynting's Theorem
881
A.
12
Plane Electromagnetic Waves
884
A.13 The Electromagnetic Stress-Energy-Momentum Tensor
887
A.14 Invariants of the Electromagnetic Field
891
A.
15
Electromagnetic Energy-Momentum Four-Vector
893
A.
16
Compton Scattering
897
A.17 Lagrangian Field Theory
900
A.18 Symmetries and Conservation Laws in Electrodynamics
906
A.19 Covariant Form of Integral Conservation Laws
910
A.20
Liénard-Wiechert
Potentials
916
A.21 Electromagnetic Fields of a Point Charge
929
A.22 Radiation by Moving Charges
922
A.22.1 The velocity and acceleration are parallel
{ß\\ß) 923
A.22.2 The acceleration is perpendicular to the velocity (jSJ-jS)
924
A.23 Relativistic Generalization of Larmor's Formula
925
A.24 Synchrotron Radiation
929
A.25 Astronomical Sources of Synchrotron Radiation
934
A.26 Inverse Compton Scattering
938
A.27 Green's Functions and Retarded Potentials
942
A.28 Radiation from a Localized Source
945
A.29 Pulsar Spin-down
950
Bibliography
952
XVI
В
Fundamentals of Elementary Particle Physics
953
B.I The Standard Model
953
B.2 Electromagnetic Interactions
960
B.3 Strong Interactions
967
B.4 Weak Interactions
970
B.5 The Electroweak Connection
974
B.6 The Dirac Equation and its Implications
981
B.7 Gauge Field Theory
1008
Bibliography
1022
С
Elements of Statistical Mechanics and Thermodynamics
1023
C.I The Boltzmann Distribution
1023
C.2
Blackbody
Radiation
1027
C.3 The Bose-Einstein and Fermi-Dirac Distributions
1032
C.4 Ideal Gas Law and Maxwell's Velocity Distribution
1037
C.5 Conservation of Entropy
1040
C.6 The Physical Meaning of Entropy
1042
C.7 The First and Second Laws of Thermodynamics
1044
C.8 The Chemical Potential
1045
C.9 Heat Capacity
1047
CIO Adiabatic Expansion
1047
C.ll Degenerate Fermion Systems
1049
C.12 Ideal Electron Gas at Zero Temperature
1053
Bibliography
1055
D
The Saha Equation
1057
E
Nuclear Statistical Equilibrium
1059
F Liouville's
Theorem and the Boltzmann Equation
1061
G
Selected Integrals in Statistical Physics
1063
H
Newtonian Gravity
1071
Index 1083
Sections indicated by an asterisk
(*)
lie somewhat out of the main line of
presentation, and may be omitted in a first reading. |
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| id | DE-604.BV023316302 |
| illustrated | Illustrated |
| index_date | 2024-07-02T20:52:12Z |
| indexdate | 2024-07-20T09:40:37Z |
| institution | BVB |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016500484 |
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| spelling | Belusević, Radoje 1953- Verfasser (DE-588)120799960 aut Relativity, astrophysics and cosmology 2 Radoje Belušević Weinheim Wiley-VCH (2008) XIX S., S. 539 - 1097 Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier (DE-604)BV023316288 2 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016500484&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Belusević, Radoje 1953- Relativity, astrophysics and cosmology |
| title | Relativity, astrophysics and cosmology |
| title_auth | Relativity, astrophysics and cosmology |
| title_exact_search | Relativity, astrophysics and cosmology |
| title_exact_search_txtP | Relativity, astrophysics and cosmology |
| title_full | Relativity, astrophysics and cosmology 2 Radoje Belušević |
| title_fullStr | Relativity, astrophysics and cosmology 2 Radoje Belušević |
| title_full_unstemmed | Relativity, astrophysics and cosmology 2 Radoje Belušević |
| title_short | Relativity, astrophysics and cosmology |
| title_sort | relativity astrophysics and cosmology |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016500484&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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