Quantum fluctuations in the S=3/2 honeycomb model interpolating between Kitaev and AKLT states melt classical and semi-classical orders into a quantum-entangled phase with suppressed spin correlations and enhanced entanglement entropy.
Kitaev, Fault-tolerant quantum computation by anyons, Ann
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Numerical BdG simulations show Andreev-induced mixing of quantum Hall edge modes prohibited in clean electronic systems, spin orthogonality under Zeeman splitting, and complex mixing under Rashba SOC with in-plane field, plus symmetry-protected degeneracies in transmission.
Analytical expressions for Majorana bound states in skyrmion-vortex pairs demonstrate that spin-orbit coupling is essential for their stabilization, with results matching numerical simulations.
citing papers explorer
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Kitaev Meets Affleck-Kennedy-Lieb-Tasaki: Competing Quantum Disorder in Spin-3/2 Honeycomb Systems
Quantum fluctuations in the S=3/2 honeycomb model interpolating between Kitaev and AKLT states melt classical and semi-classical orders into a quantum-entangled phase with suppressed spin correlations and enhanced entanglement entropy.
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Spin and orbital mixing of edge states in a quantum Hall system proximitized by a superconductor
Numerical BdG simulations show Andreev-induced mixing of quantum Hall edge modes prohibited in clean electronic systems, spin orthogonality under Zeeman splitting, and complex mixing under Rashba SOC with in-plane field, plus symmetry-protected degeneracies in transmission.
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Majorana bound states in chiral ferromagnet-superconductor heterostructures revisited
Analytical expressions for Majorana bound states in skyrmion-vortex pairs demonstrate that spin-orbit coupling is essential for their stabilization, with results matching numerical simulations.