EffectiveFrequencyCyl¶
- <optical solver="EffectiveFrequencyCyl">¶
Corresponding Python class:
optical.effective.EffectiveFrequencyCyl
.Scalar optical solver based on the effective frequency method.
- Attributes:
name (
required
) – Solver name.
- Contents:
- <geometry>¶
Geometry for use by this solver.
- Attributes:
ref (
required
) – Name of a Cylindrical geometry defined in the<geometry>
section.
- <mesh>¶
Optional Rectangular2D, Ordered, Regular mesh used by this solver.
- Attributes:
ref (
required
) – Name of a Rectangular2D, Ordered, Regular mesh defined in the<grids>
section.
- <mode>¶
Mode properties.
- Attributes:
lam0 – Approximate wavelength, around which the solution is searched. The refractive and group idexes are computed for this wavelength (float (nm))
emission – Direction of the useful light emission. Necessary for the over-threshold model to correctly compute the output power. (
top
orbottom
, default istop
)vlam – ‘“Vertical wavelength” i.e. the wavelength what would be in the absence of lateral confinement; setting this value helps to find models in very long resonators.’ (float (nm))
vat – Horizontal position of at which the vertical part of the field is calculated. (float (µm))
- <root>¶
Parameters of the horizontal root-finding algorithm.
- Attributes:
method – Root finding algorithm. (
muller
,broyden
, orbrent
, default ismuller
)determinant – This parameter determines the method used to compute radial determinant. If it is set to ‘transfer’, 2x2 transfer matrix is used to ensure field continuity at the interfaces. For the ‘full’ value, one single matrix is constructed for all the interfaces and its determinant is returned. (
full
ortransfer
, default istransfer
)tolx – Maximum change of the effective frequency parameter which is allowed for convergent solution. (float, default 1e-06)
tolf-min – Minimum value of the determinant sufficient to assume convergence. (float, default 1e-07)
tolf-max – Maximum value of the determinant required to assume convergence. (float, default 2e-05)
maxstep – Maximum step in one iteration of root finding. Significant for the Broyden’s method only. (float, default 0.1)
maxiter – Maximum number of root finding iterations. (int, default 500)
alpha – Parameter ensuring sufficient decrease of determinant in each step (Broyden method only). (float, default 1e-07)
lambda – Minimum decrease ratio of one step (Broyden method only). (float, default 1e-08)
initial-range – Initial range size (Muller method only). (complex, default 0.001)
stairs – Number of staircase iterations (Brent method only). (int, default 3)
- <stripe-root>¶
Parameters of root-finding algorithm for one stripe.
- Attributes:
method – Root finding algorithm. (
muller
,broyden
, orbrent
, default ismuller
)tolx – Maximum change of the effective frequency parameter which is allowed for convergent solution. (float, default 1e-06)
tolf-min – Minimum value of the determinant sufficient to assume convergence. (float, default 1e-07)
tolf-max – Maximum value of the determinant required to assume convergence. (float, default 1e-05)
maxstep – Maximum step in one iteration of root finding. Significant for the Broyden’s method only. (float, default 0.1)
maxiter – Maximum number of root finding iterations. (int, default 500)
alpha – Parameter ensuring sufficient decrease of determinant in each step (Broyden method only). (float, default 1e-07)
lambda – Minimum decrease ratio of one step (Broyden method only). (float, default 1e-08)
initial-range – Initial range size (Muller method only). (complex, default 0.001)
stairs – Number of staircase iterations (Brent method only). (int, default 3)