Dirac electron in graphene with magnetic fields arising from first-order intertwining operators
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Publication:5870320
DOI10.1088/1751-8121/AB3F40OpenAlexW3105830997MaRDI QIDQ5870320
David J. Fernández C., M. Castillo-Celeita
Publication date: 9 January 2023
Published in: Journal of Physics A: Mathematical and Theoretical (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1905.12045
Related Items (10)
Dirac systems with magnetic field and position-dependent mass: Darboux transformations and equivalence with generalized Dirac oscillators ⋮ Position-dependent mass Dirac equation and local Fermi velocity ⋮ The extension of the massless fermion behaviour in the cosmic string spacetime ⋮ Coherent states for graphene under the interaction of crossed electric and magnetic fields ⋮ Schrödinger-type 2D coherent states of magnetized uniaxially strained graphene ⋮ Characterization of Darboux transformations for quantum systems with quadratically energy-dependent potentials ⋮ Dirac Hamiltonian in a supersymmetric framework ⋮ Electron in Bilayer Graphene with Magnetic Fields Associated with Solvable Potentials ⋮ Electron in bilayer graphene with magnetic fields leading to shape invariant potentials ⋮ Bilayer graphene in magnetic fields generated by supersymmetry
Cites Work
- Qualitative analysis of trapped Dirac fermions in graphene
- Systems with higher-order shape invariance: spectral and algebraic properties
- RICCATI EQUATION, FACTORIZATION METHOD AND SHAPE INVARIANCE
- Higher-order SUSY, linearized nonlinear Heisenberg algebras and coherent states
- Trends in Supersymmetric Quantum Mechanics
- Carbon nanotubes in an inhomogeneous transverse magnetic field: exactly solvable model
- Dirac electron in graphene under supersymmetry generated magnetic fields
- The Band Theory of Graphite
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