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Bona C., Palenzuela-Luque C. — Elements of Numerical Relativity: From Einstein's Equations to Black Hole Simulations (Lecture Notes in Physics)
Bona C., Palenzuela-Luque C. — Elements of Numerical Relativity: From Einstein's Equations to Black Hole Simulations (Lecture Notes in Physics)



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Название: Elements of Numerical Relativity: From Einstein's Equations to Black Hole Simulations (Lecture Notes in Physics)

Авторы: Bona C., Palenzuela-Luque C.

Аннотация:

Spurred by the current development of numerous large-scale projects for detecting gravitational radiation, with the aim to open a completely new window to the observable Universe, numerical relativity has become a major field of research over the past years. Indeed, numerical relativity is the standard approach when studying potential sources of gravitational waves, where strong fields and relativistic velocities are part of any physical scenario. This book can be considered a primer for both graduate students and non-specialist researchers wishing to enter the field. Starting from the most basic insights and aspects of numerical relativity, Elements of Numerical Relativity develops coherent guidelines for the reliable and convenient selection of each of the following key aspects: evolution formalism, gauge, initial and boundary conditions as well as various numerical algorithms. The tests and applications proposed in this book can be performed on a standard PC.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2005

Количество страниц: 151

Добавлена в каталог: 24.04.2010

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
3+1 Covariance      27 61
3+1 Decomposition      19
3+1 Field equations      25 29
Acceleration four-vector      24
ADM equations      29
ADM evolution system      41
Advection equation      75
AMR methods      143
Apparent horizon      129
Approximate solutions      16
Balance laws      10 73
Bianchi identities      6
Black Hole simulations      85 119
Black Holes, excised      125
Black Holes, punctured      123
Black Holes, stuffed      126
Bona — Masso system      53 58
boundary conditions      93
Boundary conditions, algebraic      101 142
Boundary conditions, constraint-preserving      110
BSSN system      55 58
Cauchy problem      93
Centered discretization      75
Characteristic matrix      44 78 79
Characteristic speeds      45 78
Co-rotating coordinates      29
Composite solutions      10 15 76 126
Computational fluid dynamics      11 67
Conformal decomposition      122
Conformally flat metric      120
Connection coefficients      3 4
Constrained evolution      33
Constraints conservation      31
Coordinate conditions      129
Coordinate speed      44
Cosmological principle      14
Cosmological radius      15
Courant condition      50
Covariant derivatives      3
Curvature      5
Deformation tensor      24
Discretization      17
Domain of dependence      49
Dust fluid      8 129
Eigenfields, incoming and outgoing      95
Einstein evolution system      31 32 65
Einstein tensor      7
Einstein — Strauss 'swiss cheese'      16
Einstein's equations decomposition      25
Einstein's equations solutions      12
Einstein's field equations      8
Electromagnetic field tensor      20
Embedding      121
Energy and Momentum constraints      20 31 41 59 79 101
Energy density      26
Energy estimates      95
Energy metric      96
Eulerian observers      24 129
Evolution strategies      33
Evolution system      20 30
Exact solutions      14
Expansion scalar      24
Extended solution space      42
Extrinsic curvature      24 25
Finite differences      17 34 47 74
Finite volume      17
First order constraints      68
First order systems      67
Flux terms      73
Flux-conservative form      10 73
Flux-limiter methods      85
Free Black Holes      127 135
Free evolution      34 41 61
Friedman — Robertson — Walker      14
Gauge characteristic time      134
Gauge pathologies      133
Gauge shocks      133
Gauge speed      45 58 63
Gauge waves      39 86
Gauss coordinates      23 34 36 123
General covariance      2
General covariant field equations      7
Geodesic lines      9
Geodesic motion      8
Geodesic slicing      23 25 34 36
Gravitational shock waves      11
Gravitational wave sources      16
Gravitational waves      33 37
Group generators      13
Group orbits      13
Harmonic coordinates      54
Harmonic slicing      38 87 136
Harmonic slicing, generalized      44 58 63 130
Horizon, apparent      120
Hyperbolic systems      78—80
Ideal fluid      7
Induced metric      21
Invariance versus covariance      20 27 43
Isometry transformations      14
Jump conditions      78
Killing equation      14
Killing vector      14
KST system      71
Lapse collapse      130
Lapse function      23
Lapse, densitized      71
Lapse, dynamical      71
Lie derivative      12 13
Lie group      13
Limit surfaces      131
Line element      2
Local inertial coordinate system      2
Matching conditions      10
Maximal slicing      37 132
Maximally dissipative boundary condition      96 135
Maxwell equations      20
Method of lines      47 76 135
Metric tensor      1
Minimal surfaces      120
MMC method      85 92 107 135 138
Modified-system approach      102 115
Momentum density      26
Monotonicity breaking      85
Monotonicity preserving      85
Newtonian gravity      33
Newtonian limit      37
Normal coordinates      22 23
Numerical approximations      17
Numerical dissipation      52 88
Numerical grid      17
Numerical speed      49 125
Octant symmetry      136
Oppenheimer — Schneider collapse      16
Ordering ambiguities      68
Ordering parameter      69
Periodic boundaries      49 87
Plane-wave analysis      35 43 57 62
Principal part      10 70
Pseudo-hyperbolic systems      45 52 58 63
Rankine — Hugoniot conditions      78
Reflection coefficients      97
Ricci evolution system      31 33 65
Ricci tensor      6
Riemann problem      77 82
Riemann solver      83
Riemann tensor      5
Riemann tensor symmetries      5
Robust stability test-bed      46 50 99 105 116
Runge — Kutta algorithm      47 52
Schwarzschild line element      15 119
Schwarzschild mass      15
Schwarzschild radial coordinate      15
Schwarzschild radius      15
Shear tensor      24
Shell crossing      126
Shift      28
Shift, dynamical      143
Shift, kinematical      81
Shift, super-luminal      30 81
Shock-capturing methods      82
Singularity avoidance      23 39 85 129
Slope-limiter methods      85
Slow motion approximation      16
Source terms      73
Space coordinates      29
Space discretization      48
Spacetime geometry      1
Spacetime symmetries      12
Spacetime synchronization      21
Spectral methods      17 34 47
Stencil      49 93
Stress tensor      26
Stress-energy tensor      7
Strongly hyperbolic systems      45 80
Structure of the field equations      9
Subsidiary system      42 60 111
Symmetric-hyperbolic systems      97
Symmetry breaking      64 71
Time coordinate      21
Time lines      21
Time symmetric initial data      120
Torsion tensor      4
Upwind discretization      75 84
Vorticity tensor      24
Wave zone      110
Weak field approximation      16
Weak solutions      11 76 107
Weakly hyperbolic systems      45 80
Well-posed system      42 46 80
Wormhole      122 125
Z-waves      106
Z4 evolution system      59 69
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