Computation of the quadrupolar bremsstrahlung waveform for two-body scattering at 3.5PN order, including frequency-domain evaluation up to O(G^4) and nonlinear memory effects.
Nonlinear nature of gravitation and gravitational wave experiments
3 Pith papers cite this work. Polarity classification is still indexing.
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Proposes a superconducting readout protocol that uses acceleration-induced electric fields in conductors to imprint and detect electromagnetic memory phase shifts.
The paper derives leading-order de Sitter corrections of order Lambda to gravitational wave displacement and spin memory using an adapted Bondi-Sachs framework.
citing papers explorer
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Quadrupolar bremsstrahlung waveform at the third-and-a-half post-Newtonian accuracy
Computation of the quadrupolar bremsstrahlung waveform for two-body scattering at 3.5PN order, including frequency-domain evaluation up to O(G^4) and nonlinear memory effects.
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Testing Electromagnetic Memory via Acceleration-Induced Phase Imprints in Superconductors
Proposes a superconducting readout protocol that uses acceleration-induced electric fields in conductors to imprint and detect electromagnetic memory phase shifts.
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de Sitter Corrections to Gravitational Wave Memory
The paper derives leading-order de Sitter corrections of order Lambda to gravitational wave displacement and spin memory using an adapted Bondi-Sachs framework.