Lorentz violation induces a robust π-periodic angular modulation in the shift photocurrent of noncentrosymmetric materials, distinguishable from the standard 2π-periodic response and sensitive to couplings of order 10^{-24} C m.
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Nonminimal spin-orbit coupling deforms angular-momentum branches in a quantum ring, producing distinct signatures in thermodynamic functions and thermomechanical instabilities enhanced by Fermi statistics, with a phenomenological model yielding anomalous thermal contraction.
Bayesian analysis of ACT DR6 CMB polarization data measures cosmic birefringence angle β = 0.215° ± 0.074° excluding zero at 2.9σ, consistent with prior WMAP and Planck results but limited by unexplained systematics.
citing papers explorer
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Angular-resolved nonlinear optical response as a probe of Lorentz violation in noncentrosymmetric materials
Lorentz violation induces a robust π-periodic angular modulation in the shift photocurrent of noncentrosymmetric materials, distinguishable from the standard 2π-periodic response and sensitive to couplings of order 10^{-24} C m.
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Thermodynamics and emergent thermomechanical response of a quantum ring with nonminimal spin--orbit coupling
Nonminimal spin-orbit coupling deforms angular-momentum branches in a quantum ring, producing distinct signatures in thermodynamic functions and thermomechanical instabilities enhanced by Fermi statistics, with a phenomenological model yielding anomalous thermal contraction.
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Cosmic Birefringence from the Atacama Cosmology Telescope Data Release 6
Bayesian analysis of ACT DR6 CMB polarization data measures cosmic birefringence angle β = 0.215° ± 0.074° excluding zero at 2.9σ, consistent with prior WMAP and Planck results but limited by unexplained systematics.