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Bipolar electron waveguides in two-dimensional materials with tilted Dirac cones

Mesoscale and Nanoscale Physics 2024-02-14 v1 Mathematical Physics math.MP

Abstract

We show that the (2+1)-dimensional massless Dirac equation, which includes a tilt term, can be reduced to the biconfluent Heun equation for a broad range of scalar confining potentials, including the well-known Morse potential. Applying these solutions, we investigate a bipolar electron waveguide in 8-PmmnPmmn borophene, formed by a well and barrier, both described by the Morse potential. We demonstrate that the ability of two-dimensional materials with tilted Dirac cones to localize electrons in both a barrier and a well can be harnessed to create pseudogaps in their electronic spectrum. These pseudogaps can be tuned through varying the applied top-gate voltage. Potential opto-valleytronic and terahertz applications are discussed.

Keywords

Cite

@article{arxiv.2402.08600,
  title  = {Bipolar electron waveguides in two-dimensional materials with tilted Dirac cones},
  author = {R. R. Hartmann and M. E. Portnoi},
  journal= {arXiv preprint arXiv:2402.08600},
  year   = {2024}
}

Comments

13 Pages, 3 figures

R2 v1 2026-06-28T14:47:32.950Z