Magneto-tunnel conductance at a Weyl semimetal-layered Chern insulator junction saturates to a universal value independent of microscopic details at high magnetic fields, driven by topological charge pumping from the Chern layers.
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For 3D Dirac fermions at charge neutrality the diffusion constant is purely quantum geometric in origin because the band velocity contribution cancels exactly, unlike in 2D.
CrSb shows a nontrivial Berry phase approaching π from SdH oscillations and DFT band calculations, supporting topological semimetal states in this altermagnet.
Zn substitution stabilizes ferromagnetism in EuMn2Sb2 and induces Weyl nodes near the Fermi level through broken time-reversal and inversion symmetries.
citing papers explorer
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Universal magnetotunnel conductance at a Weyl semimetal-layered Chern insulator junction
Magneto-tunnel conductance at a Weyl semimetal-layered Chern insulator junction saturates to a universal value independent of microscopic details at high magnetic fields, driven by topological charge pumping from the Chern layers.
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Quantum geometric contribution to the diffusion constant
For 3D Dirac fermions at charge neutrality the diffusion constant is purely quantum geometric in origin because the band velocity contribution cancels exactly, unlike in 2D.
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Topological nontrivial berry phase in altermagnet CrSb
CrSb shows a nontrivial Berry phase approaching π from SdH oscillations and DFT band calculations, supporting topological semimetal states in this altermagnet.
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Broken Symmetry-driven Weyl Semimetal Phase in Zn-Substituted EuMn$_2$Sb$_2$
Zn substitution stabilizes ferromagnetism in EuMn2Sb2 and induces Weyl nodes near the Fermi level through broken time-reversal and inversion symmetries.