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Parametric excitation of spinning test particles by gravitational waves

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Parametric excitation of spinning test particles by gravitational waves. / Mohseni, Morteza; Tucker, Robin; Wang, Charles.
The ninth Marcel Grossmann meeting: on recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories. ed. / Vahe G. Gurzadyan; Robert T. Jantzen; Remo Ruffini. Singapore: World Scientific, 2002. p. 958-958.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Mohseni, M, Tucker, R & Wang, C 2002, Parametric excitation of spinning test particles by gravitational waves. in VG Gurzadyan, RT Jantzen & R Ruffini (eds), The ninth Marcel Grossmann meeting: on recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories. World Scientific, Singapore, pp. 958-958. https://doi.org/10.1142/9789812777386_0118

APA

Mohseni, M., Tucker, R., & Wang, C. (2002). Parametric excitation of spinning test particles by gravitational waves. In V. G. Gurzadyan, R. T. Jantzen, & R. Ruffini (Eds.), The ninth Marcel Grossmann meeting: on recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories (pp. 958-958). World Scientific. https://doi.org/10.1142/9789812777386_0118

Vancouver

Mohseni M, Tucker R, Wang C. Parametric excitation of spinning test particles by gravitational waves. In Gurzadyan VG, Jantzen RT, Ruffini R, editors, The ninth Marcel Grossmann meeting: on recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories. Singapore: World Scientific. 2002. p. 958-958 doi: 10.1142/9789812777386_0118

Author

Mohseni, Morteza ; Tucker, Robin ; Wang, Charles. / Parametric excitation of spinning test particles by gravitational waves. The ninth Marcel Grossmann meeting: on recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories. editor / Vahe G. Gurzadyan ; Robert T. Jantzen ; Remo Ruffini. Singapore : World Scientific, 2002. pp. 958-958

Bibtex

@inproceedings{d141bcb8ea384b768b2424f833e9ebdb,
title = "Parametric excitation of spinning test particles by gravitational waves",
abstract = "One of the most striking predictions of Einstein's theory of gravitation is the existence of gravitational waves. Such waves are thought to be produced by astrophysical phenomena ranging from the coalescence of orbiting binaries to violent events in the early Universe. Their detection would herald a new window for the observation of natural phenomena. The essential mechanism by which gravitational waves interact with matter relies on the existence of {"}tidal forces{"} produced on extended structures in a non-uniform gravitational field. It has long been known that the angular momentum of rotating bodies can couple to gravitational curvature producing forces and torques. If one neglects the back-reaction of such bodies on the field itself a coherent multipole expansion has been developed by Dixon that rationalises a lot of early work on the classical motion of spinning particles in gravitational fields. These equations have been used to explore the effects of spherically and axially symmetric stationary gravitational fields on both massive and massless spinning test particles. An alternative approach has been adopted with results that differ significantly from those discussed here…",
author = "Morteza Mohseni and Robin Tucker and Charles Wang",
year = "2002",
month = dec,
doi = "10.1142/9789812777386_0118",
language = "English",
isbn = "9789812380104 ",
pages = "958--958",
editor = "Gurzadyan, {Vahe G. } and Jantzen, {Robert T. } and Ruffini, {Remo }",
booktitle = "The ninth Marcel Grossmann meeting",
publisher = "World Scientific",

}

RIS

TY - GEN

T1 - Parametric excitation of spinning test particles by gravitational waves

AU - Mohseni, Morteza

AU - Tucker, Robin

AU - Wang, Charles

PY - 2002/12

Y1 - 2002/12

N2 - One of the most striking predictions of Einstein's theory of gravitation is the existence of gravitational waves. Such waves are thought to be produced by astrophysical phenomena ranging from the coalescence of orbiting binaries to violent events in the early Universe. Their detection would herald a new window for the observation of natural phenomena. The essential mechanism by which gravitational waves interact with matter relies on the existence of "tidal forces" produced on extended structures in a non-uniform gravitational field. It has long been known that the angular momentum of rotating bodies can couple to gravitational curvature producing forces and torques. If one neglects the back-reaction of such bodies on the field itself a coherent multipole expansion has been developed by Dixon that rationalises a lot of early work on the classical motion of spinning particles in gravitational fields. These equations have been used to explore the effects of spherically and axially symmetric stationary gravitational fields on both massive and massless spinning test particles. An alternative approach has been adopted with results that differ significantly from those discussed here…

AB - One of the most striking predictions of Einstein's theory of gravitation is the existence of gravitational waves. Such waves are thought to be produced by astrophysical phenomena ranging from the coalescence of orbiting binaries to violent events in the early Universe. Their detection would herald a new window for the observation of natural phenomena. The essential mechanism by which gravitational waves interact with matter relies on the existence of "tidal forces" produced on extended structures in a non-uniform gravitational field. It has long been known that the angular momentum of rotating bodies can couple to gravitational curvature producing forces and torques. If one neglects the back-reaction of such bodies on the field itself a coherent multipole expansion has been developed by Dixon that rationalises a lot of early work on the classical motion of spinning particles in gravitational fields. These equations have been used to explore the effects of spherically and axially symmetric stationary gravitational fields on both massive and massless spinning test particles. An alternative approach has been adopted with results that differ significantly from those discussed here…

U2 - 10.1142/9789812777386_0118

DO - 10.1142/9789812777386_0118

M3 - Conference contribution/Paper

SN - 9789812380104

SP - 958

EP - 958

BT - The ninth Marcel Grossmann meeting

A2 - Gurzadyan, Vahe G.

A2 - Jantzen, Robert T.

A2 - Ruffini, Remo

PB - World Scientific

CY - Singapore

ER -