Quantum frustration protects the qubit from Ohmic noise and some sub-Ohmic noise but fails against common 1/f noise, causing spontaneous symmetry breaking and decoherence.
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Local nonfreeness in Hubbard models equals mutual information of natural spin orbitals and is fully classical under number conservation, linking to nonlocal entanglement.
Redefines quantum states as equivalence classes of density operators to show the contradiction between unitary Schrödinger dynamics and outcome reduction becomes negligible in a suitable limit, unifying with decoherence and von Neumann entropy ideas.
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Quantum Frustration as a Protection Mechanism in Non-Topological Majorana Qubits
Quantum frustration protects the qubit from Ohmic noise and some sub-Ohmic noise but fails against common 1/f noise, causing spontaneous symmetry breaking and decoherence.
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Local classical correlations between physical electrons in Hubbard systems
Local nonfreeness in Hubbard models equals mutual information of natural spin orbitals and is fully classical under number conservation, linking to nonlocal entanglement.
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Emergence of outcomes in quantum mechanics
Redefines quantum states as equivalence classes of density operators to show the contradiction between unitary Schrödinger dynamics and outcome reduction becomes negligible in a suitable limit, unifying with decoherence and von Neumann entropy ideas.