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Main Authors: Carneiro, F. L., de Carvalho, H. P., Lobo, M. P., Cabral, L. A.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.27042
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author Carneiro, F. L.
de Carvalho, H. P.
Lobo, M. P.
Cabral, L. A.
author_facet Carneiro, F. L.
de Carvalho, H. P.
Lobo, M. P.
Cabral, L. A.
contents The memory effect of test particles interacting with pp-wave Gaussian pulses is investigated for polarization modes beyond the standard quadrupolar $+$ and $\times$ states. Massive geodesic equations are solved numerically for several values of the multipolar index $m$, allowing the analysis of velocity and energy memory effects. In order to eliminate possible coordinate artifacts, the study is formulated in terms of the relative motion between two test particles. The results show that the relative kinetic energy variation exhibits a quartic dependence on the wave amplitude in the regime of low initial velocities. The coefficient of this scaling is found to depend on the multipolar structure of the wave, reflecting the spatial gradients associated with higher polarization modes. It is further shown that the energy memory effect is determined by the integrated tidal field, linking the permanent change in the relative kinetic energy to the history of the spacetime curvature carried by the wave.13
format Preprint
id arxiv_https___arxiv_org_abs_2603_27042
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Memory effect for generalized modes in pp-waves spacetime
Carneiro, F. L.
de Carvalho, H. P.
Lobo, M. P.
Cabral, L. A.
General Relativity and Quantum Cosmology
The memory effect of test particles interacting with pp-wave Gaussian pulses is investigated for polarization modes beyond the standard quadrupolar $+$ and $\times$ states. Massive geodesic equations are solved numerically for several values of the multipolar index $m$, allowing the analysis of velocity and energy memory effects. In order to eliminate possible coordinate artifacts, the study is formulated in terms of the relative motion between two test particles. The results show that the relative kinetic energy variation exhibits a quartic dependence on the wave amplitude in the regime of low initial velocities. The coefficient of this scaling is found to depend on the multipolar structure of the wave, reflecting the spatial gradients associated with higher polarization modes. It is further shown that the energy memory effect is determined by the integrated tidal field, linking the permanent change in the relative kinetic energy to the history of the spacetime curvature carried by the wave.13
title Memory effect for generalized modes in pp-waves spacetime
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2603.27042