CSBEND

A canonical kick sector dipole magnet.

Parameter Name	Units	Type	Default	Description
L	$M$	double	0.0	arc length
ANGLE	$RAD$	double	0.0	bend angle
K1	$1/M^{2}$	double	0.0	geometric quadrupole strength
K2	$1/M^{3}$	double	0.0	geometric sextupole strength
K3	$1/M^{3}$	double	0.0	geometric octupole strength
K4	$1/M^{4}$	double	0.0	geometric decapole strength
E1	$RAD$	double	0.0	entrance edge angle
E2	$RAD$	double	0.0	exit edge angle
TILT	$RAD$	double	0.0	rotation about incoming longitudinal axis
H1	$1/M$	double	0.0	entrance pole-face curvature
H2	$1/M$	double	0.0	exit pole-face curvature
HGAP	$M$	double	0.0	half-gap between poles
FINT		double	0.5	edge-field integral
DX	$M$	double	0.0	misalignment
DY	$M$	double	0.0	misalignment
DZ	$M$	double	0.0	misalignment
FSE		double	0.0	fractional strength error
ETILT		double	0.0	error rotation about incoming longitudinal axis
N_KICKS		long	4	number of kicks
NONLINEAR		long	1	include nonlinear field components?
SYNCH_RAD		long	0	include classical synchrotron radiation?
EDGE1_EFFECTS		long	1	include entrace edge effects?
EDGE2_EFFECTS		long	1	include exit edge effects?
INTEGRATION_ORDER		long	2	integration order (2 or 4)
EDGE1_KICK_LIMIT		double	-1	maximum kick entrance edge can deliver
EDGE2_KICK_LIMIT		double	-1	maximum kick exit edge can deliver

A canonical kick sector dipole magnet.

Parameter Name	Units	Type	Default	Description
KICK_LIMIT_SCALING		long	0	scale maximum edge kick with FSE?
USE_BN		long	0	use B$<$n$>$ instead of K$<$n$>$?
B1	$1/M$	double	0.0	K1 = B1*rho, where rho is bend radius
B2	$1/M^{2}$	double	0.0	K2 = B2*rho
B3	$1/M^{3}$	double	0.0	K3 = B3*rho
B4	$1/M^{4}$	double	0.0	K4 = B4*rho
ISR		long	0	include incoherent synchrotron radiation (scattering)?