C3-symmetric and certain C2-symmetric pi-vacancy motifs in 3n x 3n graphene superlattices pin Dirac cones at Gamma to open band gaps, while others allow shifts.
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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.
citing papers explorer
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Guidelines for band gap opening in graphene superlattices with periodic {\pi}-vacancy distribution
C3-symmetric and certain C2-symmetric pi-vacancy motifs in 3n x 3n graphene superlattices pin Dirac cones at Gamma to open band gaps, while others allow shifts.
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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.