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e_hernquist.c
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Created
Sun, Dec 29, 05:16
Size
3 KB
Mime Type
text/x-c
Expires
Tue, Dec 31, 05:16 (8 h, 12 m)
Engine
blob
Format
Raw Data
Handle
23218877
Attached To
R1448 Lenstool-HPC
e_hernquist.c
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#include<stdio.h>
#include<math.h>
#include<fonction.h>
#include<constant.h>
#include<dimension.h>
#include<structure.h>
static
double
hern_f
(
double
x
);
static
double
hern_gamma
(
double
r
,
double
rs
,
double
kappas
);
static
double
hern_kappa
(
double
r
,
double
rs
,
double
kappas
);
/****************************************************************/
/* nom: e_hernquist */
/* auteur: Eric Jullo, Carlo Giocoli (MOKA) */
/* date: 06/13 */
/* place: Marseille */
/****************************************************************
* Global variables used :
* - none
* */
double
hern_dpl
(
double
r
,
double
rs
,
double
kappas
)
{
double
x
=
r
/
rs
;
double
dpl
=
kappas
*
rs
*
x
*
(
1.
-
hern_f
(
x
))
/
(
x
*
x
-
1.
);
return
(
dpl
);
}
/* --------------------------------------------------------------*/
/* Global variables used :
* - none
* */
static
double
hern_kappa
(
double
r
,
double
rs
,
double
kappas
)
{
double
x
=
r
/
rs
;
double
kappa
=
kappas
*
((
2.
+
x
*
x
)
*
hern_f
(
x
)
-
3.
)
/
(
x
*
x
-
1.
)
/
(
x
*
x
-
1.
);
return
(
kappa
);
}
/* --------------------------------------------------------------*
* Return kappa for elliptical NFW (cf. Golse & Kneib 2002, eq 17)
* Global variables used :
* - none
* */
double
hern_kappa_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
)
{
double
kappa_eps
;
kappa_eps
=
hern_kappa
(
r
,
rs
,
kappas
)
+
eps
*
cos
(
2
*
theta
)
*
hern_gamma
(
r
,
rs
,
kappas
);
return
(
kappa_eps
);
}
/* --------------------------------------------------------------*
* Return gamma1 and gamma2 for elliptical Hernquist.
* (cf. Drumet-Montoyat et al. 2012 Eq A10-A12, Golse & Kneib 2002, eq 18)
* The formalism is valid independently of the profile, namely NFW or Hernquist
* Global variables used :
* - none
*/
struct
point
hern_gamma_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
)
{
struct
point
gamma_eps
;
double
kappa
,
gamma
;
kappa
=
hern_kappa
(
r
,
rs
,
kappas
);
gamma
=
hern_gamma
(
r
,
rs
,
kappas
);
// gamma_eps = sqrt( pow(gamma, 2.) + 2 * eps * cos(2 * theta) * kappa * gamma + eps * eps * ( pow(kappa, 2.) - pow(sin(2 * theta) * gamma, 2.) ) ); //NOT USED ANYMORE
gamma_eps
.
x
=
gamma
*
cos
(
2.
*
theta
)
+
eps
*
kappa
;
// gamma1
gamma_eps
.
y
=
-
sqrt
(
1.
-
eps
*
eps
)
*
gamma
*
sin
(
2.
*
theta
);
// gamma2
return
(
gamma_eps
);
}
/* --------------------------------------------------------------*/
/* Global variables used :
* - none
* */
static
double
hern_gamma
(
double
r
,
double
rs
,
double
kappas
)
{
return
(
hern_dpl
(
r
,
rs
,
kappas
)
/
r
-
hern_kappa
(
r
,
rs
,
kappas
)
);
}
/* --------------------------------------------------------------*/
/* Global variables used :
* Taken from Keeton 2002, Eq 48
* - none
* */
static
double
hern_f
(
double
x
)
{
double
f
=
0
;
if
(
x
>
1
)
f
=
atan
(
sqrt
((
x
-
1.
)
*
(
x
+
1.
)))
/
sqrt
(
x
*
x
-
1
);
else
if
(
x
<
1
)
f
=
atanh
(
sqrt
((
1.
-
x
)
*
(
1.
+
x
)))
/
sqrt
(
1.
-
x
*
x
);
else
f
=
1.
;
return
(
f
);
}
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