Non-interacting charge-e/3 anyons with θ=-π/3 statistics superconduct via a hidden weak-pairing state of three-pocket composite fermions that realizes a chiral f-if superconductor with edge central charge c_-=-1/2.
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A momentum-projected variational wavefunction with low-rank electron-phonon factorization yields a scalable, translationally invariant method for computing polaron binding energies and band structures in the thermodynamic limit.
Altermagnets enable planar Josephson junctions that host Majorana end modes controlled by crystallographic orientation, extending naturally to high-Tc platforms.
A general quantity from Landau free energy shows superradiant transitions can enhance or suppress fermionic pairing and superconducting gaps in two-order-parameter systems, as verified in Rabi and Dicke models.
The paper introduces neural-network trial wave functions for variational Monte Carlo, frames the variational method as unsupervised learning, and illustrates the approach on the Yukawa potential and hydrogen molecule.
A review summarizing recent progress in high-intensity polarized muon beams for precision muonium physics, new physics searches, and materials science applications.
citing papers explorer
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Hidden weak-pairing superconductivity of non-interacting anyons obeying $\frac{1}{3}$ statistics
Non-interacting charge-e/3 anyons with θ=-π/3 statistics superconduct via a hidden weak-pairing state of three-pocket composite fermions that realizes a chiral f-if superconductor with edge central charge c_-=-1/2.
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A Scalable Translationally Invariant Variational Theory of Ab Initio Polarons
A momentum-projected variational wavefunction with low-rank electron-phonon factorization yields a scalable, translationally invariant method for computing polaron binding energies and band structures in the thermodynamic limit.
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Topological altermagnetic Josephson junctions
Altermagnets enable planar Josephson junctions that host Majorana end modes controlled by crystallographic orientation, extending naturally to high-Tc platforms.
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Superradiance enhances and suppresses fermionic pairing based on universal critical scaling in two order parameters systems
A general quantity from Landau free energy shows superradiant transitions can enhance or suppress fermionic pairing and superconducting gaps in two-order-parameter systems, as verified in Rabi and Dicke models.
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Introduction to the artificial neural network-based variational Monte Carlo method
The paper introduces neural-network trial wave functions for variational Monte Carlo, frames the variational method as unsupervised learning, and illustrates the approach on the Yukawa potential and hydrogen molecule.
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Muon beams towards muonium physics: progress and prospects
A review summarizing recent progress in high-intensity polarized muon beams for precision muonium physics, new physics searches, and materials science applications.