SMX¶
-
class
zgoubidoo.commands.contrib.iba.
SMX
(label1: str = '', label2: str = '', *params, **kwargs)[source]¶ Bases:
zgoubidoo.commands.magnetique.Multipole
Proteus One inline (horizontal) scanning magnet.
Command attributes
-
LABEL1=''
Primary label for the Zgoubi command (default: auto-generated hash).
- Type
str
-
LABEL2=''
Secondary label for the Zgoubi command.
- Type
str
-
HEIGHT='20 centimeter'
Height of the magnet (distance between poles), used by plotting functions.
- Type
Quantity
-
POLE_WIDTH='30 centimeter'
Pole width (used for plotting only).
- Type
Quantity
-
PIPE_THICKNESS='2 centimeter'
Thickness of the pipe, used by plotting functions.
- Type
Quantity
-
PIPE_COLOR='grey'
Color of the pipe, used by plotting functions.
- Type
str
-
REFERENCE_FIELD_COMPONENT='BZ'
Orientation of the reference field (used by field maps)
- Type
str
-
KINEMATICS='None'
A kinematics object.
- Type
NoneType
-
APERTURE_LEFT='10 centimeter'
Aperture size of the magnet, left side (used for plotting only).
- Type
Quantity
-
APERTURE_RIGHT='10 centimeter'
Aperture size of the magnet, right side (used for plotting only).
- Type
Quantity
-
APERTURE_TOP='10 centimeter'
Aperture size of the magnet, top side (used for plotting only).
- Type
Quantity
-
APERTURE_BOTTOM='10 centimeter'
Aperture size of the magnet, bottom side (used for plotting only).
- Type
Quantity
-
COLOR='green'
Magnet color for plotting.
- Type
str
-
LENGTH_IS_ARC_LENGTH='False'
- Type
bool
-
IL='0'
Print field and coordinates along trajectories
- Type
int
-
XL='0.26317552187769017 meter'
Magnet length
- Type
Quantity
-
R0='10.0 centimeter'
Radius of the pole tips
- Type
Quantity
-
B1='0 kilogauss'
Field at pole tip for dipolar component.
- Type
Quantity
-
B2='0 kilogauss'
Field at pole tip for quadrupolar component.
- Type
Quantity
-
B3='0 kilogauss'
Field at pole tip for sextupolar component.
- Type
Quantity
-
B4='0 kilogauss'
Field at pole tip for octupolar component.
- Type
Quantity
-
B5='0 kilogauss'
Field at pole tip for decapolar component.
- Type
Quantity
-
B6='0 kilogauss'
Field at pole tip for dodecapolar component.
- Type
Quantity
-
B7='0 kilogauss'
Field at pole tip for 14-polar component.
- Type
Quantity
-
B8='0 kilogauss'
Field at pole tip for 16-polar component.
- Type
Quantity
-
B9='0 kilogauss'
Field at pole tip for 18-polar component.
- Type
Quantity
-
B10='0 kilogauss'
Field at pole tip for 20-polar component.
- Type
Quantity
-
X_E='0 centimeter'
Entrance face integration zone for the fringe field.
- Type
Quantity
-
LAM_E='0.03879980891555799 meter'
Entrance face fringe field extent
- Type
Quantity
-
E2='1'
Quadrupole entrance fringe field extent (E_2 * LAM_E).
- Type
int
-
E3='1'
Sextupolar entrance fringe field extent (E_3 * LAM_E).
- Type
int
-
E4='1'
Octupolar entrance fringe field extent (E_4 * LAM_E).
- Type
int
-
E5='1'
Decapolar entrance fringe field extent (E_5 * LAM_E).
- Type
int
-
E6='1'
Dodecapolar entrance fringe field extent (E_6 * LAM_E).
- Type
int
-
E7='1'
14-polar entrance fringe field extent (E_7 * LAM_E).
- Type
int
-
E8='1'
16-polar entrance fringe field extent (E_8 * LAM_E).
- Type
int
-
E9='1'
18-polar entrance fringe field extent (E_9 * LAM_E).
- Type
int
-
E10='1'
20-polar entrance fringe field extent (E_10 * LAM_E).
- Type
int
-
C0_E='2.260586829767431'
Zeroth-order Enge coefficient for entrance fringe field.
- Type
float
-
C1_E='1'
First-order Enge coefficient for entrance fringe field.
- Type
int
-
C2_E='-0.08454912439481363'
Second-order Enge coefficient for entrance fringe field.
- Type
float
-
C3_E='0.03165152479873875'
Third-order Enge coefficient for entrance fringe field.
- Type
float
-
C4_E='-0.016368674101593452'
Fourth-order Enge coefficient for entrance fringe field.
- Type
float
-
C5_E='0.002271083461208103'
Fifth-order Enge coefficient for entrance fringe field.
- Type
float
-
X_S='0 centimeter'
Exit face integration zone for the fringe field.
- Type
Quantity
-
LAM_S='0.019573704193528198 meter'
Exit face fringe field extent
- Type
Quantity
-
S2='1'
Quadrupole exit fringe field extent (E_2 * LAM_S).
- Type
int
-
S3='1'
Sextupolar exit fringe field extent (E_3 * LAM_S).
- Type
int
-
S4='1'
Octupolar exit fringe field extent (E_4 * LAM_S).
- Type
int
-
S5='1'
Decapolar exit fringe field extent (E_5 * LAM_S).
- Type
int
-
S6='1'
Dodecapolar exit fringe field extent (E_6 * LAM_S).
- Type
int
-
S7='1'
14-polar exit fringe field extent (E_7 * LAM_S).
- Type
int
-
S8='1'
16-polar exit fringe field extent (E_8 * LAM_S).
- Type
int
-
S9='1'
18-polar exit fringe field extent (E_9 * LAM_S).
- Type
int
-
S10='1'
20-polar exit fringe field extent (E_10 * LAM_S).
- Type
int
-
C0_S='0.007471653696559507'
Zeroth-order Enge coefficient for entrance fringe field.
- Type
float
-
C1_S='1'
First-order Enge coefficient for exit fringe field.
- Type
int
-
C2_S='-0.1596436867616995'
Second-order Enge coefficient for exit fringe field.
- Type
float
-
C3_S='0.02917407661831325'
Third-order Enge coefficient for exit fringe field.
- Type
float
-
C4_S='-0.0022865133242955886'
Fourth-order Enge coefficient for exit fringe field.
- Type
float
-
C5_S='7.362703656240262e-05'
Fifth-order Enge coefficient for exit fringe field.
- Type
float
-
R1='0 degree'
Skew angle of the dipolar component
- Type
Quantity
-
R2='0 degree'
Skew angle of the quadrupolar component
- Type
Quantity
-
R3='0 degree'
Skew angle of the sextupolar component
- Type
Quantity
-
R4='0 degree'
Skew angle of the octupolar component
- Type
Quantity
-
R5='0 degree'
Skew angle of the decapolar component
- Type
Quantity
-
R6='0 degree'
Skew angle of the dodecapolar component
- Type
Quantity
-
R7='0 degree'
Skew angle of the 14-polar component
- Type
Quantity
-
R8='0 degree'
Skew angle of the 16-polar component
- Type
Quantity
-
R9='0 degree'
Skew angle of the 18-polar component
- Type
Quantity
-
R10='0 degree'
Skew angle of the 20-polar component
- Type
Quantity
-
XPAS='1.0 centimeter'
Integration step.
- Type
Quantity
-
KPOS='1'
- Type
int
-
XCE='0 centimeter'
- Type
Quantity
-
YCE='0 centimeter'
- Type
Quantity
-
ALE='0 radian'
- Type
Quantity
Default initializer for all Commands.
Attributes Summary
Methods Summary
post_init
(**kwargs)- param **kwargs
- param fit
Attributes Documentation
-
KEYWORD
: str = 'MULTIPOL'¶
-
PARAMETERS
: dict = {'ALE': (<Quantity(0, 'radian')>, ''), 'APERTURE_BOTTOM': (<Quantity(10, 'centimeter')>, 'Aperture size of the magnet, bottom side (used for plotting only).'), 'APERTURE_LEFT': (<Quantity(10, 'centimeter')>, 'Aperture size of the magnet, left side (used for plotting only).'), 'APERTURE_RIGHT': (<Quantity(10, 'centimeter')>, 'Aperture size of the magnet, right side (used for plotting only).'), 'APERTURE_TOP': (<Quantity(10, 'centimeter')>, 'Aperture size of the magnet, top side (used for plotting only).'), 'B1': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for dipolar component.', 4), 'B10': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for 20-polar component.', 13), 'B2': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for quadrupolar component.', 5), 'B3': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for sextupolar component.', 6), 'B4': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for octupolar component.', 7), 'B5': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for decapolar component.', 8), 'B6': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for dodecapolar component.', 9), 'B7': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for 14-polar component.', 10), 'B8': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for 16-polar component.', 11), 'B9': (<Quantity(0, 'kilogauss')>, 'Field at pole tip for 18-polar component.', 12), 'C0_E': (2.260586829767431, 'Zeroth-order Enge coefficient for entrance fringe field.'), 'C0_S': (0.007471653696559507, 'Zeroth-order Enge coefficient for entrance fringe field.'), 'C1_E': (1, 'First-order Enge coefficient for entrance fringe field.'), 'C1_S': (1, 'First-order Enge coefficient for exit fringe field.'), 'C2_E': (-0.08454912439481363, 'Second-order Enge coefficient for entrance fringe field.'), 'C2_S': (-0.1596436867616995, 'Second-order Enge coefficient for exit fringe field.'), 'C3_E': (0.03165152479873875, 'Third-order Enge coefficient for entrance fringe field.'), 'C3_S': (0.02917407661831325, 'Third-order Enge coefficient for exit fringe field.'), 'C4_E': (-0.016368674101593452, 'Fourth-order Enge coefficient for entrance fringe field.'), 'C4_S': (-0.0022865133242955886, 'Fourth-order Enge coefficient for exit fringe field.'), 'C5_E': (0.002271083461208103, 'Fifth-order Enge coefficient for entrance fringe field.'), 'C5_S': (7.362703656240262e-05, 'Fifth-order Enge coefficient for exit fringe field.'), 'COLOR': ('green', 'Magnet color for plotting.'), 'E10': (1, '20-polar entrance fringe field extent (E_10 * LAM_E).'), 'E2': (1, 'Quadrupole entrance fringe field extent (E_2 * LAM_E).'), 'E3': (1, 'Sextupolar entrance fringe field extent (E_3 * LAM_E).'), 'E4': (1, 'Octupolar entrance fringe field extent (E_4 * LAM_E).'), 'E5': (1, 'Decapolar entrance fringe field extent (E_5 * LAM_E).'), 'E6': (1, 'Dodecapolar entrance fringe field extent (E_6 * LAM_E).'), 'E7': (1, '14-polar entrance fringe field extent (E_7 * LAM_E).'), 'E8': (1, '16-polar entrance fringe field extent (E_8 * LAM_E).'), 'E9': (1, '18-polar entrance fringe field extent (E_9 * LAM_E).'), 'HEIGHT': (<Quantity(20, 'centimeter')>, 'Height of the magnet (distance between poles), used by plotting functions.'), 'IL': (0, 'Print field and coordinates along trajectories', 1), 'KINEMATICS': (None, 'A kinematics object.'), 'KPOS': (1, ''), 'LABEL1': ('', 'Primary label for the Zgoubi command (default: auto-generated hash).'), 'LABEL2': ('', 'Secondary label for the Zgoubi command.'), 'LAM_E': (<Quantity(0.0387998089, 'meter')>, 'Entrance face fringe field extent'), 'LAM_S': (<Quantity(0.0195737042, 'meter')>, 'Exit face fringe field extent'), 'LENGTH_IS_ARC_LENGTH': (False, ''), 'PIPE_COLOR': ('grey', 'Color of the pipe, used by plotting functions.'), 'PIPE_THICKNESS': (<Quantity(2, 'centimeter')>, 'Thickness of the pipe, used by plotting functions.'), 'POLE_WIDTH': (<Quantity(30, 'centimeter')>, 'Pole width (used for plotting only).'), 'R0': (<Quantity(10.0, 'centimeter')>, 'Radius of the pole tips', 3), 'R1': (<Quantity(0, 'degree')>, 'Skew angle of the dipolar component'), 'R10': (<Quantity(0, 'degree')>, 'Skew angle of the 20-polar component'), 'R2': (<Quantity(0, 'degree')>, 'Skew angle of the quadrupolar component'), 'R3': (<Quantity(0, 'degree')>, 'Skew angle of the sextupolar component'), 'R4': (<Quantity(0, 'degree')>, 'Skew angle of the octupolar component'), 'R5': (<Quantity(0, 'degree')>, 'Skew angle of the decapolar component'), 'R6': (<Quantity(0, 'degree')>, 'Skew angle of the dodecapolar component'), 'R7': (<Quantity(0, 'degree')>, 'Skew angle of the 14-polar component'), 'R8': (<Quantity(0, 'degree')>, 'Skew angle of the 16-polar component'), 'R9': (<Quantity(0, 'degree')>, 'Skew angle of the 18-polar component'), 'REFERENCE_FIELD_COMPONENT': ('BZ', 'Orientation of the reference field (used by field maps)'), 'S10': (1, '20-polar exit fringe field extent (E_10 * LAM_S).'), 'S2': (1, 'Quadrupole exit fringe field extent (E_2 * LAM_S).'), 'S3': (1, 'Sextupolar exit fringe field extent (E_3 * LAM_S).'), 'S4': (1, 'Octupolar exit fringe field extent (E_4 * LAM_S).'), 'S5': (1, 'Decapolar exit fringe field extent (E_5 * LAM_S).'), 'S6': (1, 'Dodecapolar exit fringe field extent (E_6 * LAM_S).'), 'S7': (1, '14-polar exit fringe field extent (E_7 * LAM_S).'), 'S8': (1, '16-polar exit fringe field extent (E_8 * LAM_S).'), 'S9': (1, '18-polar exit fringe field extent (E_9 * LAM_S).'), 'XCE': (<Quantity(0, 'centimeter')>, ''), 'XL': (<Quantity(0.263175522, 'meter')>, 'Magnet length', 2), 'XPAS': (<Quantity(1.0, 'centimeter')>, 'Integration step.'), 'X_E': (<Quantity(0, 'centimeter')>, 'Entrance face integration zone for the fringe field.'), 'X_S': (<Quantity(0, 'centimeter')>, 'Exit face integration zone for the fringe field.'), 'YCE': (<Quantity(0, 'centimeter')>, '')}¶
Methods Documentation
-