MultilayerMirror¶
- class kgpy.optics.materials.MultilayerMirror(plot_kwargs=<factory>, name='mirror', thickness=None, cap=<factory>, main=<factory>, base=<factory>)¶
Bases:
Mirror- Parameters:
- __init__(plot_kwargs=<factory>, name='mirror', thickness=None, cap=<factory>, main=<factory>, base=<factory>)¶
Attributes
Methods
__init__([plot_kwargs, name, thickness, ...])copy()- rtype:
typing.TypeVar(CopyableT, bound= Copyable)
- rtype:
typing.TypeVar(CopyableT, bound= Copyable)
index_refraction(ray)plot(ax[, component_x, component_y, ...])- rtype:
plot_layers(ax, layer_material_color, ...)transmissivity(ray)Inheritance Diagram
digraph inheritance9e4cdf064a { bgcolor=transparent; rankdir=TB; size="8.0, 12.0"; "abc.ABC" [URL="https://docs.python.org/3/library/abc.html#abc.ABC",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top",tooltip="Helper class that provides a standard way to create an ABC using"]; "kgpy.mixin.Broadcastable" [URL="kgpy.mixin.Broadcastable.html#kgpy.mixin.Broadcastable",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top",tooltip="Class to help with determining the shape of the optical configuration."]; "kgpy.mixin.Copyable" [URL="kgpy.mixin.Copyable.html#kgpy.mixin.Copyable",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top"]; "abc.ABC" -> "kgpy.mixin.Copyable" [arrowsize=0.5,style="setlinewidth(0.5)"]; "kgpy.mixin.Plottable" [URL="kgpy.mixin.Plottable.html#kgpy.mixin.Plottable",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top",tooltip="Plottable(plot_kwargs: Dict[str, Any] = <factory>)"]; "kgpy.mixin.Copyable" -> "kgpy.mixin.Plottable" [arrowsize=0.5,style="setlinewidth(0.5)"]; "abc.ABC" -> "kgpy.mixin.Plottable" [arrowsize=0.5,style="setlinewidth(0.5)"]; "kgpy.optics.materials.Material" [URL="kgpy.optics.materials.Material.html#kgpy.optics.materials.Material",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top",tooltip="Material(plot_kwargs: Dict[str, Any] = <factory>, name: str = '')"]; "kgpy.mixin.Plottable" -> "kgpy.optics.materials.Material" [arrowsize=0.5,style="setlinewidth(0.5)"]; "kgpy.mixin.Broadcastable" -> "kgpy.optics.materials.Material" [arrowsize=0.5,style="setlinewidth(0.5)"]; "kgpy.mixin.Copyable" -> "kgpy.optics.materials.Material" [arrowsize=0.5,style="setlinewidth(0.5)"]; "abc.ABC" -> "kgpy.optics.materials.Material" [arrowsize=0.5,style="setlinewidth(0.5)"]; "kgpy.optics.materials.Mirror" [URL="kgpy.optics.materials.Mirror.html#kgpy.optics.materials.Mirror",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top",tooltip="Mirror(plot_kwargs: Dict[str, Any] = <factory>, name: str = 'mirror', thickness: Union[int, float, numpy.ndarray, astropy.units.quantity.Quantity, kgpy.labeled.AbstractArray, kgpy.uncertainty.AbstractArray, NoneType] = None)"]; "kgpy.optics.materials.Material" -> "kgpy.optics.materials.Mirror" [arrowsize=0.5,style="setlinewidth(0.5)"]; "kgpy.optics.materials.MultilayerMirror" [URL="kgpy.optics.materials.MultilayerMirror.html#kgpy.optics.materials.MultilayerMirror",fillcolor=white,fontname="Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",fontsize=10,height=0.25,shape=box,style="setlinewidth(0.5),filled",target="_top",tooltip="MultilayerMirror(plot_kwargs: Dict[str, Any] = <factory>, name: str = 'mirror', thickness: Union[int, float, numpy.ndarray, astropy.units.quantity.Quantity, kgpy.labeled.AbstractArray, kgpy.uncertainty.AbstractArray, NoneType] = None, cap: kgpy.optics.materials.Layer = <factory>, main: kgpy.optics.materials.Layer = <factory>, base: kgpy.optics.materials.Layer = <factory>)"]; "kgpy.optics.materials.Mirror" -> "kgpy.optics.materials.MultilayerMirror" [arrowsize=0.5,style="setlinewidth(0.5)"]; }- copy()¶
- Return type:
typing.TypeVar(CopyableT, bound= Copyable)- Parameters:
self (CopyableT) –
- copy_shallow()¶
- Return type:
typing.TypeVar(CopyableT, bound= Copyable)- Parameters:
self (CopyableT) –
- index_refraction(ray)¶
- Return type:
typing.Union[int,float,numpy.ndarray,astropy.units.quantity.Quantity,kgpy.labeled.AbstractArray,kgpy.uncertainty.AbstractArray]- Parameters:
self (MirrorT) –
ray (RayVector) –
- plot(ax, component_x='x', component_y='y', component_z=None, transform_extra=None, sag=None, aperture=None, **kwargs)¶
- Return type:
- Parameters:
- plot_layers(ax, layer_material_color, layer_label_x, layer_label_x_text)¶
- transmissivity(ray)¶
- Return type:
typing.Union[int,float,numpy.ndarray,astropy.units.quantity.Quantity,kgpy.labeled.AbstractArray,kgpy.uncertainty.AbstractArray]- Parameters:
self (MaterialT) –
ray (RayVector) –
- property broadcasted¶
-
plot_kwargs:
typing.Dict[str,typing.Any]¶
- property shape¶
-
thickness:
typing.Union[int,float,numpy.ndarray,astropy.units.quantity.Quantity,kgpy.labeled.AbstractArray,kgpy.uncertainty.AbstractArray,None] = None¶