Gravitational waves induce OAM transitions in photons with probabilities P_l±1 ~ 10^{-17} and P_l±2 ~ 10^{-20}, enabling a proposed wide-band GW detector insensitive to seismic noise.
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A new self-consistent framework uses only ground-state properties to quantitatively predict finite-temperature thermodynamics, dielectric properties, and critical behaviors in displacive ferroelectrics like PbTiO3 and SrTiO3.
A new bridging path integral form is proposed that unifies non-relativistic and QED formulations while explaining the origin of spin and nonlocal correlations, transcending conventional quantum mechanics.
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How gravitational waves change photon orbital angular momentum quantum states
Gravitational waves induce OAM transitions in photons with probabilities P_l±1 ~ 10^{-17} and P_l±2 ~ 10^{-20}, enabling a proposed wide-band GW detector insensitive to seismic noise.
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A Self-Consistent Computational Framework for Displacive Ferroelectrics from the Condensed Ground State
A new self-consistent framework uses only ground-state properties to quantitatively predict finite-temperature thermodynamics, dielectric properties, and critical behaviors in displacive ferroelectrics like PbTiO3 and SrTiO3.
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A new theory bridging non-relativistic and QED-based path integrals unveils more than quantum mechanics
A new bridging path integral form is proposed that unifies non-relativistic and QED formulations while explaining the origin of spin and nonlocal correlations, transcending conventional quantum mechanics.
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