Weighted decay conditions on the Brinkmann profile A(U) classify asymptotic motions into strongly free, weakly free, and non-free regimes, with the weak regime preserving displacement memory via an intrinsic curvature effect.
Velocity Memory Effect for Polarized Gravitational Waves
1 Pith paper cite this work. Polarity classification is still indexing.
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abstract
Circularly polarized gravitational sandwich waves exhibit, as do their linearly polarized counterparts, the Velocity Memory Effect: freely falling test particles in the flat after-zone fly apart along straight lines with constant velocity. In the inside zone their trajectories combine oscillatory and rotational motions in a complicated way. For circularly polarized periodic gravitational waves some trajectories remain bounded, while others spiral outward. These waves admit an additional "screw" isometry beyond the usual five. The consequences of this extra symmetry are explored.
fields
gr-qc 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Decay criteria for asymptotic freedom in plane gravitational waves
Weighted decay conditions on the Brinkmann profile A(U) classify asymptotic motions into strongly free, weakly free, and non-free regimes, with the weak regime preserving displacement memory via an intrinsic curvature effect.