TiSe2 normal phase is a phonon-induced pseudogap phase with momentum-dependent spectral weight suppression up to 1 eV above Fermi level due to strong CDW fluctuations.
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A variational framework yields closed-form Bayesian estimators for Gaussian quantum states via polynomial quadrature operators and a global optimality condition.
Electronic Lévy glasses convert low charge current into large spin Hall current with 30% spin Hall angle in the superdiffusive regime versus 5% in the diffusive regime.
Molecular dynamics simulations reveal that the CDW in monolayer TiSe2 melts via a two-step fluctuation regime with defects and domain walls, while anisotropic thermal fluctuations spontaneously stabilize an asymmetric 3Q chiral CDW with C2 symmetry.
citing papers explorer
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Phonon-induced pseudogap phase in TiSe$_2$
TiSe2 normal phase is a phonon-induced pseudogap phase with momentum-dependent spectral weight suppression up to 1 eV above Fermi level due to strong CDW fluctuations.
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Closed-form Bayesian quantum estimation of Gaussian states
A variational framework yields closed-form Bayesian estimators for Gaussian quantum states via polynomial quadrature operators and a global optimality condition.
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Spin Hall effect in electronic L\'evy glasses: Enhanced spin current generation in the superdiffusive regime
Electronic Lévy glasses convert low charge current into large spin Hall current with 30% spin Hall angle in the superdiffusive regime versus 5% in the diffusive regime.
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Fluctuation-driven multi-step charge density wave transition in monolayer TiSe$_2$
Molecular dynamics simulations reveal that the CDW in monolayer TiSe2 melts via a two-step fluctuation regime with defects and domain walls, while anisotropic thermal fluctuations spontaneously stabilize an asymmetric 3Q chiral CDW with C2 symmetry.