Non-reciprocal coupling of two Ising gauge theories yields linear asymptotic Wilson loop scaling with tunable confinement length, self-avoiding quasiparticle trails on critical percolation clusters, and non-reciprocity-tuned logarithmic noise contributions plus long-lived trapped states.
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A variational approach produces a nonlocal spin-dependent effective potential between two ground-state Wannier excitons that reduces to the local Heitler-London hydrogen result for heavy holes and yields van der Waals interactions when excited states are included.
The lower critical dimension of the non-equilibrium phase transition is non-integer and fractal and can be tuned continuously by the frequency detuning of the driving field.
A repulsive Hubbard term selects topologically nontrivial pairing over the trivial one in singular-interaction superconductors, with the transition passing through a topology-induced time-reversal symmetry breaking phase.
New NQR data on LaNiGa2 shows a pronounced Hebel-Slichter peak that favors two-gap singlet pairing and casts doubt on non-unitary triplet pairing with time-reversal symmetry breaking.
citing papers explorer
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Non-reciprocal Ising gauge theory
Non-reciprocal coupling of two Ising gauge theories yields linear asymptotic Wilson loop scaling with tunable confinement length, self-avoiding quasiparticle trails on critical percolation clusters, and non-reciprocity-tuned logarithmic noise contributions plus long-lived trapped states.
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Variational and field-theoretical approach to exciton-exciton interactions and biexcitons in semiconductors
A variational approach produces a nonlocal spin-dependent effective potential between two ground-state Wannier excitons that reduces to the local Heitler-London hydrogen result for heavy holes and yields van der Waals interactions when excited states are included.
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Tunable lower critical fractal dimension for a non-equilibrium phase transition
The lower critical dimension of the non-equilibrium phase transition is non-integer and fractal and can be tuned continuously by the frequency detuning of the driving field.
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Topologically non-trivial gap function and topology-induced time-reversal symmetry breaking in a superconductor with singular dynamical interaction
A repulsive Hubbard term selects topologically nontrivial pairing over the trivial one in singular-interaction superconductors, with the transition passing through a topology-induced time-reversal symmetry breaking phase.
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Observation of a pronounced Hebel-Slichter peak in the spin-lattice relaxation rate and implications for gap and pairing symmetry in LaNiGa$_2$
New NQR data on LaNiGa2 shows a pronounced Hebel-Slichter peak that favors two-gap singlet pairing and casts doubt on non-unitary triplet pairing with time-reversal symmetry breaking.