Transmission in gapped graphene under combined strain and laser-electrostatic barriers shows Fano-type oscillations that strengthen at moderate strain, shift with incidence energy, and respond differently to laser amplitude versus frequency.
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Strain engineering in graphene with double barriers produces collimation, channels, surface states and confinement for Dirac fermions, with calculated transmission and conductance.
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Quantum transport in gapped graphene under strain and laser--electrostatic barriers
Transmission in gapped graphene under combined strain and laser-electrostatic barriers shows Fano-type oscillations that strengthen at moderate strain, shift with incidence energy, and respond differently to laser amplitude versus frequency.
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Electronic Structure of Graphene with two Strains and Double Barrier
Strain engineering in graphene with double barriers produces collimation, channels, surface states and confinement for Dirac fermions, with calculated transmission and conductance.