equus_example

Self-consistent Spectrum

Calculates the self-consitent spectrum of a graphene quantum dot as in 2014 Nanotechnology 25 465201.
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equus_example
self consistent spectrum

Spectral density in SGS junction

Calculates the spectral density as a function of the transverse momentum quantum number in a ballistic superconductor-graphene-superconductor junction.
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equus_example
spectral density
graphene
SGS

DC Josephson current

Calculates the DC Josephson current in an SNS geometry. Works both for square and hexagonal lattices. However, for simplicity the default parameters of this example are describing a one-dimensional tight binding chain studied in the reference below.
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equus_example
SNS Josephson

Graphene antidot - transport

Calculates the conductance through a graphene antidot in a homogeneous magnetic field.
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equus_example
antidot
transport

Graphene antidot - eigenstate

Calculates an eigenstate of a graphene antidot for three different boundary conditions in a homogeneous magnetic field.
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equus_example
eigenstates
antidot
single layer graphene

Magnetic barrier

Calculates the conductance as a function of the energy for a given magnetic field. The magnetic field is applied perpendicularly to the scattering region, while the magnetic field in the leads is zero.
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equus_example
magnetic barrier
single layer graphene

Minimal conductivity (MC) of graphene

Calculates the minimal conductivity of a single layer graphene ribbon as a function of the aspect ratio.
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equus_example
minimal conductivity
graphene