Eötvös Quantum Utilities  v4.9.146
Providing the Horsepowers in the Quantum Realm
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param_Graphene_Lead Class Reference

Class containing physical parameters of a particular lead defined on a graphene lattice. More...

Inheritance diagram for param_Graphene_Lead:
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Public Member Functions

function CopyParameters (param_lead_in)
 Copy the attributes of the input structure into the present object. More...
 
function param_Graphene_Lead ()
 Constructor of the class. More...
 

Public Attributes

Property Atom
 Cell array of structure Atom. More...
 
Property deltaAB
 on-site energy difference between sublattices A and B More...
 
Property End_Type
 Set 'A' for lattice with armchair orientation (meaning zigzag edges) or 'Z' for zizgaz orientation (meaning arm-chair edges) More...
 
Property epsilon
 On-site energy. More...
 
Property FileName
 An instance of structure shape describing the geometry of the scattering region. More...
 
Property Lead_Orientation
 Orientation of the lead. Set to +1 (default) if the propagating direction of the states heading to the central device is defined in the +x or +y direction, and "-1" otherwise. More...
 
Property M
 The number of regular sites in the cross section of one unit cell in the lead. More...
 
Property pair_potential
 The superconducting pair potential. More...
 
Property vargamma
 Nearest neighbour hopping parameter. More...
 
Property vargamma_sc
 A physical parameter, see the individual lattice documentations for details. More...
 

Detailed Description

Class containing physical parameters of a particular lead defined on a graphene lattice.

Available

EQuUs v4.9 or later

Definition at line 26 of file param_Graphene_Lead.m.

Constructor & Destructor Documentation

◆ param_Graphene_Lead()

function param_Graphene_Lead::param_Graphene_Lead ( )

Constructor of the class.

Returns
An instance of the class

Member Function Documentation

◆ CopyParameters()

function param_Lead::CopyParameters ( param_lead_in  )
inherited

Copy the attributes of the input structure into the present object.

Parameters
Aninstance of class identical to the present class or its superclass.
Returns
Returns with the modified class

Member Data Documentation

◆ Atom

Property param_Lead::Atom
inherited

Cell array of structure Atom.

Definition at line 38 of file param_Lead.m.

◆ deltaAB

Property Lattice_Graphene::deltaAB
inherited

on-site energy difference between sublattices A and B

Definition at line 41 of file Lattice_Graphene.m.

◆ End_Type

Property Lattice_Graphene::End_Type
inherited

Set 'A' for lattice with armchair orientation (meaning zigzag edges) or 'Z' for zizgaz orientation (meaning arm-chair edges)

Definition at line 38 of file Lattice_Graphene.m.

◆ epsilon

Property Lattice_Graphene::epsilon
inherited

On-site energy.

Definition at line 32 of file Lattice_Graphene.m.

◆ FileName

Property param_Lead::FileName
inherited

An instance of structure shape describing the geometry of the scattering region.

Definition at line 35 of file param_Lead.m.

◆ Lead_Orientation

Property param_Lead::Lead_Orientation
inherited

Orientation of the lead. Set to +1 (default) if the propagating direction of the states heading to the central device is defined in the +x or +y direction, and "-1" otherwise.

Definition at line 44 of file param_Lead.m.

◆ M

Property param_Lead::M
inherited

The number of regular sites in the cross section of one unit cell in the lead.

Definition at line 47 of file param_Lead.m.

◆ pair_potential

Property param_Lead::pair_potential
inherited

The superconducting pair potential.

Definition at line 32 of file param_Lead.m.

◆ vargamma

Property Lattice_Graphene::vargamma
inherited

Nearest neighbour hopping parameter.

Definition at line 35 of file Lattice_Graphene.m.

◆ vargamma_sc

Property param_Lead::vargamma_sc
inherited

A physical parameter, see the individual lattice documentations for details.

Definition at line 41 of file param_Lead.m.


The documentation for this class was generated from the following file: