However, in these energy ranges, the relativistic wave experiences a higher degree of reflection compared to its non-relativistic counterpart as shown in FIG

In certain energy ranges, the reflection probability in the relativistic case approaches zero, similar to the behavior observed in the non-relativistic case

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Relativistic particles in super-periodic potentials: exploring graphene and fractal systems

cond-mat.mes-hall · 2024-12-16 · unverdicted · novelty 4.0

Transfer matrix calculations for relativistic Klein particles in super-periodic potentials show Klein tunneling with elevated reflection, graphene transmission resonances dependent on barrier count and periodicity order, and near-unity tunneling in GSVC fractals near gamma=1.

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Relativistic particles in super-periodic potentials: exploring graphene and fractal systems cond-mat.mes-hall · 2024-12-16 · unverdicted · none · ref 1
Transfer matrix calculations for relativistic Klein particles in super-periodic potentials show Klein tunneling with elevated reflection, graphene transmission resonances dependent on barrier count and periodicity order, and near-unity tunneling in GSVC fractals near gamma=1.

However, in these energy ranges, the relativistic wave experiences a higher degree of reflection compared to its non-relativistic counterpart as shown in FIG

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