Gravitational waves induce long-range dissipative couplings among atoms in ordered arrays via the EM vacuum, producing a distinct superradiant photon emission shifted by the GW frequency and persisting under disorder.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
verdicts
UNVERDICTED 3representative citing papers
Parity Architecture delivers record ~0.01 fidelity for 50-qubit QFT on IBM hardware with super-exponential scaling improvement.
Optimizing collision gates for ultracold fermions in double-well potentials reveals momentum-dependent interaction energies that are higher for atoms starting in separate subwells than the same subwell, supporting case-specific high-fidelity gates beyond Fermi-Hubbard models.
citing papers explorer
-
Gravitational Wave-Induced Superradiance in Ordered Atomic Arrays
Gravitational waves induce long-range dissipative couplings among atoms in ordered arrays via the EM vacuum, producing a distinct superradiant photon emission shifted by the GW frequency and persisting under disorder.
-
Demonstrating Record Fidelity for the Quantum Fourier Transform
Parity Architecture delivers record ~0.01 fidelity for 50-qubit QFT on IBM hardware with super-exponential scaling improvement.
-
Optimizing two-qubit gates for ultracold fermions in optical lattices
Optimizing collision gates for ultracold fermions in double-well potentials reveals momentum-dependent interaction energies that are higher for atoms starting in separate subwells than the same subwell, supporting case-specific high-fidelity gates beyond Fermi-Hubbard models.