LORENE
bhole.h
1/*
2 * Definition of Lorene classes Bhole
3 * Bhole_binaire
4 *
5 */
6
7/*
8 * Copyright (c) 2000-2001 Philippe Grandclement
9 *
10 * This file is part of LORENE.
11 *
12 * LORENE is free software; you can redistribute it and/or modify
13 * it under the terms of the GNU General Public License as published by
14 * the Free Software Foundation; either version 2 of the License, or
15 * (at your option) any later version.
16 *
17 * LORENE is distributed in the hope that it will be useful,
18 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 * GNU General Public License for more details.
21 *
22 * You should have received a copy of the GNU General Public License
23 * along with LORENE; if not, write to the Free Software
24 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
25 *
26 */
27
28
29#ifndef __BHOLE_H_
30#define __BHOLE_H_
31
32/*
33 * $Id: bhole.h,v 1.18 2014/10/13 08:52:32 j_novak Exp $
34 * $Log: bhole.h,v $
35 * Revision 1.18 2014/10/13 08:52:32 j_novak
36 * Lorene classes and functions now belong to the namespace Lorene.
37 *
38 * Revision 1.17 2007/05/15 12:44:18 p_grandclement
39 * Scalar version of reevaluate
40 *
41 * Revision 1.16 2007/04/24 20:15:30 f_limousin
42 * Implementation of Dirichlet and Neumann BC for the lapse
43 *
44 * Revision 1.15 2006/04/27 09:12:29 p_grandclement
45 * First try at irrotational black holes
46 *
47 * Revision 1.14 2005/08/29 15:10:12 p_grandclement
48 * Addition of things needed :
49 * 1) For BBH with different masses
50 * 2) Provisory files for the mixted binaries (Bh and NS) : THIS IS NOT
51 * WORKING YET !!!
52 *
53 * Revision 1.13 2004/12/02 09:33:04 p_grandclement
54 * *** empty log message ***
55 *
56 * Revision 1.12 2004/03/25 12:35:34 j_novak
57 * now using namespace Unites
58 *
59 * Revision 1.11 2004/03/25 09:14:06 j_novak
60 * *** empty log message ***
61 *
62 * Revision 1.10 2004/03/25 08:53:33 j_novak
63 * Error in the doc corrected.
64 *
65 * Revision 1.9 2004/03/24 17:14:04 j_novak
66 * Translation of comments to doxygen
67 *
68 * Revision 1.8 2003/11/25 07:12:58 k_taniguchi
69 * Change the argument of update_metric from the class Etoile_bin to Et_bin_nsbh.
70 *
71 * Revision 1.7 2003/11/13 13:43:53 p_grandclement
72 * Addition of things needed for Bhole::update_metric (const Etoile_bin&, double, double)
73 *
74 * Revision 1.6 2003/10/24 13:05:48 p_grandclement
75 * correction of the equations for Bin_ns_bh...
76 *
77 * Revision 1.5 2003/02/13 16:40:24 p_grandclement
78 * Addition of various things for the Bin_ns_bh project, non of them being
79 * completely tested
80 *
81 * Revision 1.4 2003/01/31 16:57:12 p_grandclement
82 * addition of the member Cmp decouple used to compute the K_ij auto, once
83 * the K_ij total is known
84 *
85 * Revision 1.3 2002/12/18 10:28:49 e_gourgoulhon
86 *
87 * Added the set_mp function.
88 *
89 * Revision 1.2 2002/09/13 09:17:31 j_novak
90 * Modif. commentaires
91 *
92 * Revision 1.1.1.1 2001/11/20 15:19:27 e_gourgoulhon
93 * LORENE
94 *
95 * Revision 2.45 2001/06/28 15:08:16 eric
96 * Ajout de la fonction area().
97 *
98 * Revision 2.44 2001/05/16 11:32:45 phil
99 * ajout de init_bhole_seul
100 *
101 * Revision 2.43 2001/05/07 12:35:28 phil
102 * mmodifi commentaires
103 *
104 * Revision 2.42 2001/05/07 11:43:43 phil
105 * *** empty log message ***
106 *
107 * Revision 2.41 2001/05/07 11:40:50 phil
108 * mise a jour des commentaires
109 *
110 * Revision 2.40 2001/05/07 09:30:37 phil
111 * *** empty log message ***
112 *
113 * Revision 2.39 2001/05/07 09:28:37 phil
114 * *** empty log message ***
115 *
116 * Revision 2.38 2001/05/07 09:11:31 phil
117 * *** empty log message ***
118 *
119 * Revision 2.37 2001/04/27 09:25:11 phil
120 * fait_decouple est devenu public
121 *
122 * Revision 2.36 2001/04/26 12:04:11 phil
123 * *** empty log message ***
124 *
125 * Revision 2.35 2001/04/05 13:42:40 phil
126 * *** empty log message ***
127 *
128 * Revision 2.34 2001/04/05 13:34:29 phil
129 * ajout resolution en utilisant phi
130 *
131 * Revision 2.33 2001/03/22 10:49:34 phil
132 * *** empty log message ***
133 *
134 * Revision 2.32 2001/03/22 10:41:25 phil
135 * pleins de modif
136 *
137 * Revision 2.31 2001/02/28 13:22:31 phil
138 * modif vire kk_auto
139 *
140 * Revision 2.30 2001/02/12 15:37:42 phil
141 * ajout calcul de J a linfini
142 *
143 * Revision 2.29 2001/01/29 14:29:56 phil
144 * ajout type rotation
145 *
146 * Revision 2.28 2001/01/24 10:57:08 phil
147 * ajout de set_rayonm
148 *
149 * Revision 2.27 2001/01/22 09:29:08 phil
150 * vire les procedures qui servent pas
151 *
152 * Revision 2.26 2001/01/10 09:31:05 phil
153 * modification de fait_kk_auto (membre de binaire maintenant)
154 *
155 * Revision 2.25 2001/01/09 13:38:15 phil
156 * ajout memebre kk_auto
157 *
158 * Revision 2.24 2000/12/21 10:47:07 phil
159 * retour eventuel a 2.21
160 *
161 * Revision 2.21 2000/12/20 09:07:56 phil
162 * ajout set_statiques
163 *
164 * Revision 2.20 2000/12/18 16:40:39 phil
165 * *** empty log message ***
166 *
167 * Revision 2.19 2000/12/18 16:38:04 phil
168 * ajout convergence vers une masse donnee
169 *
170 * Revision 2.18 2000/12/15 16:41:28 phil
171 * ajout calcul de la separation
172 *
173 * Revision 2.17 2000/12/14 10:44:28 phil
174 * ATTENTION : PASSAGE DE PHI A PSI
175 *
176 * Revision 2.16 2000/12/13 15:35:18 phil
177 * ajout calcul bare_masse
178 *
179 * Revision 2.15 2000/12/04 14:29:37 phil
180 * ajout de grad_n_tot
181 *
182 * Revision 2.14 2000/12/01 16:12:52 phil
183 * *** empty log message ***
184 *
185 * Revision 2.13 2000/12/01 14:16:20 phil
186 * *** empty log message ***
187 *
188 * Revision 2.12 2000/11/24 15:14:44 phil
189 * ajout de find_horizon
190 *
191 * Revision 2.11 2000/11/24 09:57:18 phil
192 * ajout calcul masse et moment pour systeme
193 *
194 * Revision 2.10 2000/11/17 10:03:13 phil
195 * ajout de coal
196 *
197 * Revision 2.9 2000/11/15 18:26:29 phil
198 * simplifaction resolution du shift : on bosse a omega bloque
199 *
200 * Revision 2.8 2000/11/15 12:59:50 phil
201 * changement solve_shift_omega
202 *
203 * Revision 2.7 2000/11/15 09:41:03 phil
204 * *** empty log message ***
205 *
206 * Revision 2.6 2000/11/15 09:39:26 phil
207 * ajout viriel
208 *
209 * Revision 2.5 2000/11/03 12:56:41 phil
210 * ajout de const
211 *
212 * Revision 2.4 2000/10/26 08:20:45 phil
213 * ajout verifie_shift
214 *
215 * Revision 2.3 2000/10/23 09:15:12 phil
216 * modif commentaires
217 *
218 * Revision 2.2 2000/10/20 10:51:13 phil
219 * Modif commentaires (minimale !)
220 *
221 * Revision 2.1 2000/10/20 09:27:28 phil
222 * *** empty log message ***
223 *
224 * Revision 2.0 2000/10/20 09:22:04 phil
225 * *** empty log message ***
226 *
227 *
228 * $Header: /cvsroot/Lorene/C++/Include/bhole.h,v 1.18 2014/10/13 08:52:32 j_novak Exp $
229 *
230 */
231
232#include "tenseur.h"
233
234namespace Lorene {
235
236class Tenseur ;
237class Tenseur_sym ;
238class Map_af ;
239class Bhole_binaire ;
240class Et_bin_nsbh ;
241
242#define COROT 0
243#define IRROT 1
244
268class Bhole {
269
270 // Data :
271 protected:
272
274 double rayon ;
275 double omega ;
276 double omega_local ;
278 double lapse_hori ;
279
283 double* boost ;
284 double regul ;
285
289
293
296
298
306
309
319
320 //Constructors :
321 public:
326 Bhole (Map_af& mapping) ;
327 Bhole (const Bhole&) ;
328 Bhole (Map_af&, FILE*, bool old=false) ;
329 ~Bhole() ;
330
331 public:
332 //sauvegarde
333 void sauve (FILE* fich) const ;
334
335 public:
336 void operator= (const Bhole&) ;
337
339 const Map_af& get_mp() const {return mp;} ;
340
342 Map_af& set_mp() {return mp; } ;
343
347 double get_rayon() const {return rayon;} ;
348
352 void set_rayon(double ray) {rayon = ray ;} ;
353
357 double get_omega() const {return omega;} ;
361 void set_omega(double ome) {omega = ome ;} ;
365 double get_omega_local() const {return omega_local;} ;
369 void set_omega_local(double ome) {omega_local = ome ;} ;
373 double get_rot_state() const {return rot_state;} ;
377 void set_rot_state(int rotation) {rot_state = rotation;} ;
382 double* get_boost () const {return boost;} ;
383 void set_boost (double vx, double vy, double vz) {
384 boost[0] = vx ; boost[1] = vy ; boost[2] = vz ;
385 }
386
390 double get_regul() const {return regul;} ;
391
395 const Tenseur& get_n_auto() const {return n_auto ;} ;
399 Cmp return_n_auto() const {return n_auto() ;} ;
403 const Tenseur& get_n_comp() const {return n_comp ;} ;
407 const Tenseur& get_n_tot() const {return n_tot ;} ;
408
412 const Tenseur& get_psi_auto() const {return psi_auto ;} ;
416 Cmp return_psi_auto() const {return psi_auto() ;} ;
420 const Tenseur& get_psi_comp() const {return psi_comp ;} ;
424 const Tenseur& get_psi_tot() const {return psi_tot ;} ;
425
429 const Tenseur& get_grad_psi_tot() const {return grad_psi_tot ;} ;
430
434 const Tenseur& get_grad_n_tot() const {return grad_n_tot ;} ;
435
436
440 const Tenseur& get_shift_auto() const {return shift_auto ;} ;
441
442 Cmp return_shift_auto(int i) const {return shift_auto(i) ;} ;
443
447 const Tenseur& get_taij_auto() const {return taij_auto ;} ;
451 const Tenseur& get_taij_comp() const {return taij_comp ;} ;
455 const Tenseur& get_taij_tot() const {return taij_tot ;}
456
460 const Tenseur& get_tkij_tot() const {return tkij_tot ;}
464 const Tenseur& get_tkij_auto() const {return tkij_auto ;}
468 const Cmp get_decouple() const {return decouple ;}
469
470 Cmp& set_n_auto() {return n_auto.set() ;}
471 Cmp& set_psi_auto() {return psi_auto.set() ;}
472
473 void set_lapse_hori(double xx) {lapse_hori = xx;}
474 public:
475
482 void fait_n_comp (const Bhole& comp) ;
483
490 void fait_psi_comp (const Bhole& comp) ;
497 void fait_n_comp (const Et_bin_nsbh& comp) ;
498
505 void fait_psi_comp (const Et_bin_nsbh& comp) ;
506
510 void fait_taij_auto () ;
511
512
525 void regularise_shift (const Tenseur& comp) ;
526
533 double viriel_seul () const ;
534
544 void init_bhole () ;
545
572 void init_kerr (double masse, double moment) ;
573
585 void solve_lapse_seul (double relax) ;
586
600 void solve_psi_seul (double relax) ;
601
617 void solve_shift_seul (double precis, double relax) ;
618
628 void regularise_seul () ;
641 void solve_lapse_with_ns (double relax, int bound_nn,
642 double lim_nn) ;
643
657 void solve_psi_with_ns (double relax) ;
658
675 void solve_shift_with_ns (const Et_bin_nsbh& ns,
676 double precis, double relax,
677 int bound_nn, double lim_nn) ;
678
679 void equilibrium (const Et_bin_nsbh& ns, double precis, double relax,
680 int bound_nn, double lim_nn) ;
681 void update_metric (const Et_bin_nsbh& ns) ;
682
683
688 void fait_tkij() ;
689
691 double area() const ;
692
699 double masse_adm_seul () const ;
700
707 double masse_komar_seul() const ;
708
717 double moment_seul_inf() const ;
718
727 double moment_seul_hor() const ;
728
729 /*
730 * local angular momentum
731 */
732 double local_momentum() const ;
733
737 void init_bhole_phi () ;
738
745 void init_bhole_seul () ;
746
747 friend class Bhole_binaire ;
748 friend class Bin_ns_bh ;
749} ;
750
758
759 // data :
760 private:
761 // les deux trous noirs.
764
765 // Tableau sur les deux trous.
767
768 double pos_axe ;
769 double omega ;
770
771 public:
772 // constructeurs & destructeur
773 Bhole_binaire(Map_af& mp1, Map_af& mp2) ;
774 Bhole_binaire(const Bhole_binaire& ) ;
775 ~Bhole_binaire() ;
776
777 public:
778 // trucs pour modifier
779 void operator=(const Bhole_binaire&) ;
780
785 Bhole& set(int i)
786 { assert( (i==1) || (i==2) );
787 return *holes[i-1] ;} ;
791 void set_omega(double ome) {omega = ome ;
792 hole1.set_omega (ome) ;
793 hole2.set_omega (ome) ;} ;
794
795 void set_pos_axe (double) ;
796
797 public:
798 // trucs pour lire :
803 const Bhole& operator()(int i) const
804 { assert( (i==1) || (i==2) );
805 return *holes[i-1] ;} ;
806
808 double get_omega() const {return omega; } ;
809
817 void init_bhole_binaire() ;
818
823 double viriel() const ;
837 void solve_lapse (double precis, double relax) ;
838
854 void solve_psi (double precis, double relax) ;
855
872 void solve_shift (double precis, double relax) ;
873
883 void fait_tkij () ;
884
891 void fait_decouple () ;
892
893 public:
901 void set_statiques (double precis, double relax) ;
902
913 void coal (double precis, double relax, int nbre_ome, double search_ome,
914 double m1, double m2, const int sortie = 0) ;
915
916
921 double adm_systeme() const ;
922
927 double komar_systeme() const ;
928
934 double moment_systeme_inf() ;
935
943 double moment_systeme_hor() const ;
944
950 double distance_propre(const int nr = 65) const ;
951
952 Tbl linear_momentum_systeme_inf() const ;
953
957 void solve_phi (double precision, double relax) ;
961 void init_phi() ;
962} ;
963
964}
965#endif
Binary black holes system.
Definition bhole.h:757
const Bhole & operator()(int i) const
Read only of a component of the system.
Definition bhole.h:803
~Bhole_binaire()
Destructor.
void operator=(const Bhole_binaire &)
Affectation operator.
double moment_systeme_inf()
Calculates the angular momentum of the black hole using the formula at infinity : where .
Definition bhole_glob.C:170
Bhole * holes[2]
Array on the black holes.
Definition bhole.h:766
double omega
Position of the axis of rotation.
Definition bhole.h:769
Bhole hole1
Black hole one.
Definition bhole.h:762
double viriel() const
Computes the viriel error, that is the difference between the ADM and the Komar masses,...
void set_statiques(double precis, double relax)
Initialize the systeme to Misner Lindquist solution, that is solving for N and in the case .
Definition bhole_coal.C:118
void solve_shift(double precis, double relax)
Solves the equation for the shift, using the Oohara-Nakarmure scheme~:
void set_omega(double ome)
Sets the orbital velocity to ome.
Definition bhole.h:791
void solve_phi(double precision, double relax)
Solve the equation for the logarithm of .
Bhole hole2
Black hole two.
Definition bhole.h:763
void solve_psi(double precis, double relax)
Solves the equation for the conformal factor~:
void fait_decouple()
Calculates {tt decouple} which is used to obtain tkij_auto by the formula : tkij_auto = decouple * tk...
Definition bhole_kij.C:314
double komar_systeme() const
Calculates the Komar mass of the system using : .
Definition bhole_glob.C:97
double adm_systeme() const
Calculates the ADM mass of the system using : .
Definition bhole_glob.C:86
double moment_systeme_hor() const
Calculates the angular momentum of the black hole using the formula on the horizon : where and den...
Definition bhole_glob.C:108
double get_omega() const
Returns the angular velocity.
Definition bhole.h:808
void coal(double precis, double relax, int nbre_ome, double search_ome, double m1, double m2, const int sortie=0)
Solves the equation for a particular angular velocity, the systeme being initialized to Misner-Lindqu...
Definition bhole_coal.C:157
void solve_lapse(double precis, double relax)
Solves the equation for the lapse~:
double distance_propre(const int nr=65) const
Calculation of the proper distance between the two spheres of inversion, along the x axis.
Definition bhole_glob.C:262
Bhole & set(int i)
Read/write of a component of the system.
Definition bhole.h:785
void init_phi()
Initiates the system for a resolution using the logarithm of .
void fait_tkij()
Calculation af the extrinsic curvature tensor.
Definition bhole_kij.C:88
void init_bhole_binaire()
Initialisation of the system.
Black hole.
Definition bhole.h:268
Tenseur psi_auto
Part of generated by the hole.
Definition bhole.h:290
Tenseur shift_auto
Part of generated by the hole.
Definition bhole.h:297
double omega_local
local angular velocity
Definition bhole.h:276
const Tenseur & get_psi_comp() const
Returns the part of generated by the companion hole.
Definition bhole.h:420
Tenseur psi_tot
Total .
Definition bhole.h:292
const Tenseur & get_n_auto() const
Returns the part of N generated by the hole.
Definition bhole.h:395
Tenseur psi_comp
Part of generated by the companion hole.
Definition bhole.h:291
Tenseur_sym tkij_auto
Auto .
Definition bhole.h:307
double omega
Angular velocity in LORENE's units.
Definition bhole.h:275
void init_bhole_phi()
Initiates the black hole for a resolution with .
void set_omega(double ome)
Sets the angular velocity to ome .
Definition bhole.h:361
Tenseur grad_psi_tot
Total gradient of .
Definition bhole.h:295
const Tenseur & get_grad_psi_tot() const
Returns the gradient of .
Definition bhole.h:429
double regul
Intensity of the correction on the shift vector.
Definition bhole.h:284
const Cmp get_decouple() const
Returns the function used to construct tkij_auto from tkij_tot .
Definition bhole.h:468
Tenseur_sym taij_auto
Part of generated by the hole.
Definition bhole.h:299
void solve_shift_seul(double precis, double relax)
Solves the equation for ~:
int rot_state
State of rotation.
Definition bhole.h:277
const Map_af & get_mp() const
Returns the mapping (readonly).
Definition bhole.h:339
double get_regul() const
Returns the intensity of the regularisation on .
Definition bhole.h:390
const Tenseur & get_n_comp() const
Returns the part of N generated by the companion hole.
Definition bhole.h:403
const Tenseur & get_grad_n_tot() const
Returns the gradient of N .
Definition bhole.h:434
void regularise_seul()
Corrects the shift in the innermost shell, so that it remains and that equals zero on the horizon.
double masse_adm_seul() const
Calculates the ADM mass of the black hole using : .
Tenseur grad_n_tot
Total gradient of N .
Definition bhole.h:294
Tenseur n_auto
Part of N generated by the hole.
Definition bhole.h:286
~Bhole()
Destructor.
Definition bhole.C:213
Tenseur_sym taij_comp
Part of generated by the companion hole.
Definition bhole.h:300
void init_bhole()
Sets the values of the fields to :
Definition bhole.C:409
double * boost
Lapse on the horizon.
Definition bhole.h:283
const Tenseur & get_tkij_auto() const
Returns the part of generated by the hole.
Definition bhole.h:464
double get_omega_local() const
Returns the local angular velocity.
Definition bhole.h:365
void solve_psi_seul(double relax)
Solves the equation for ~:
const Tenseur & get_tkij_tot() const
Returns the total .
Definition bhole.h:460
double moment_seul_hor() const
Calculates the angular momentum of the black hole using the formula on the horizon : where and H de...
double rayon
Radius of the horizon in LORENE's units.
Definition bhole.h:274
void set_rot_state(int rotation)
Returns the state of rotation.
Definition bhole.h:377
Map_af & set_mp()
Read/write of the mapping.
Definition bhole.h:342
void init_bhole_seul()
Initiates for a single the black hole.
Definition bhole.C:445
void solve_psi_with_ns(double relax)
Solves the equation for ~:
double viriel_seul() const
Computes the viriel error, that is the difference between the ADM and the Komar masses,...
double area() const
Computes the area of the throat.
Definition bhole.C:545
double get_rot_state() const
Returns the state of rotation.
Definition bhole.h:373
Tenseur n_comp
Part of N generated by the companion hole.
Definition bhole.h:287
const Tenseur & get_taij_comp() const
Returns the part of generated by the companion hole.
Definition bhole.h:451
Map_af & mp
Affine mapping.
Definition bhole.h:273
Tenseur_sym taij_tot
Total , which must be zero on the horizon of the regularisation on the shift has been done.
Definition bhole.h:305
Tenseur n_tot
Total N .
Definition bhole.h:288
Cmp return_n_auto() const
Returns the part of N generated by the hole as a cmp.
Definition bhole.h:399
const Tenseur & get_psi_auto() const
Returns the part of generated by the hole.
Definition bhole.h:412
void fait_tkij()
Calculates the total .
Cmp return_psi_auto() const
Returns the part of generated by the hole as a cmp.
Definition bhole.h:416
double masse_komar_seul() const
Calculates the Komar mass of the black hole using : .
void sauve(FILE *fich) const
Write on a file.
Definition bhole.C:482
const Tenseur & get_shift_auto() const
Returns the part of generated by the hole.
Definition bhole.h:440
const Tenseur & get_taij_auto() const
Returns the part of generated by the hole.
Definition bhole.h:447
void solve_lapse_with_ns(double relax, int bound_nn, double lim_nn)
Solves the equation for N ~:
const Tenseur & get_psi_tot() const
Returns the total .
Definition bhole.h:424
void fait_psi_comp(const Bhole &comp)
Imports the part of due to the companion hole comp .
Definition bhole.C:280
void solve_lapse_seul(double relax)
Solves the equation for N ~:
Tenseur_sym tkij_tot
Total .
Definition bhole.h:308
double moment_seul_inf() const
Calculates the angular momentum of the black hole using the formula at infinity : where .
void fait_taij_auto()
Calculates the part of generated by shift_auto .
Definition bhole.C:379
void init_kerr(double masse, double moment)
Set the inital values to those of Kerr.
const Tenseur & get_n_tot() const
Returns the total N .
Definition bhole.h:407
double * get_boost() const
Returns the cartesian components of the boost with respect to the reference frame.
Definition bhole.h:382
const Tenseur & get_taij_tot() const
Returns the total .
Definition bhole.h:455
double get_omega() const
Returns the angular velocity.
Definition bhole.h:357
void solve_shift_with_ns(const Et_bin_nsbh &ns, double precis, double relax, int bound_nn, double lim_nn)
Solves the equation for ~:
double get_rayon() const
Returns the radius of the horizon.
Definition bhole.h:347
void set_omega_local(double ome)
Sets the local angular velocity to ome .
Definition bhole.h:369
void set_rayon(double ray)
Sets the radius of the horizon to ray .
Definition bhole.h:352
void fait_n_comp(const Bhole &comp)
Imports the part of N due to the companion hole comp .
Definition bhole.C:254
void operator=(const Bhole &)
Affectation.
Definition bhole.C:218
Cmp decouple
Function used to construct the part of generated by the hole from the total .
Definition bhole.h:318
void regularise_shift(const Tenseur &comp)
Corrects shift_auto in such a way that the total is equal to zero in the horizon,...
Definition bhole.C:403
Neutron star - black hole binary system.
Definition bin_ns_bh.h:117
Component of a tensorial field *** DEPRECATED : use class Scalar instead ***.
Definition cmp.h:446
Affine radial mapping.
Definition map.h:2027
Basic array class.
Definition tbl.h:161
Class intended to describe tensors with a symmetry on the two last indices *** DEPRECATED : use class...
Definition tenseur.h:1253
Tensor handling *** DEPRECATED : use class Tensor instead ***.
Definition tenseur.h:301
Cmp & set()
Read/write for a scalar (see also operator=(const Cmp&) ).
Definition tenseur.C:824
Lorene prototypes.
Definition app_hor.h:64