Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet

C. K. Li; P. Tzeferacos; D. Lamb; G. Gregori; P. A. Norreys; M. J. Rosenberg; R. K. Follett; D. H. Froula; M. Koenig; F. H. Seguin; J. A. Frenje; H. G. Rinderknecht; H. Sio; A. B. Zylstra; R. D. Petrasso; P. A. Amendt; H. S. Park; B. A. Remington; D. D. Ryutov; S. C. Wilks; R. Betti; A. Frank; S. X. Hu; T. C. Sangster; P. Hartigan; R. P. Drake; C. C. Kuranz; S. V. Lebedev; N. C. Woolsey

doi:10.1038/ncomms13081

Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet

C. K. Li
, P. Tzeferacos
, D. Lamb
, G. Gregori
, P. A. Norreys
, M. J. Rosenberg
, R. K. Follett
, D. H. Froula
, M. Koenig
, F. H. Seguin
, J. A. Frenje
, H. G. Rinderknecht
, H. Sio
, A. B. Zylstra
, R. D. Petrasso
, P. A. Amendt
, H. S. Park
, B. A. Remington
, D. D. Ryutov
, S. C. Wilks

R. Betti, A. Frank, S. X. Hu, T. C. Sangster, P. Hartigan, R. P. Drake, C. C. Kuranz, S. V. Lebedev, N. C. Woolsey

Plasma Science and Fusion Center
University of Chicago
University of Oxford
University of Rochester Laboratory for Laser Energetics
University of Rochester
Université Paris-Saclay
Osaka University
Lawrence Livermore National Laboratory
Rice University
University of Michigan, Ann Arbor
Imperial College London
University of York

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The remarkable discovery by the Chandra X-ray observatory that the Crab nebula's jet periodically changes direction provides a challenge to our understanding of astrophysical jet dynamics. It has been suggested that this phenomenon may be the consequence of magnetic fields and magnetohydrodynamic instabilities, but experimental demonstration in a controlled laboratory environment has remained elusive. Here we report experiments that use high-power lasers to create a plasma jet that can be directly compared with the Crab jet through well-defined physical scaling laws. The jet generates its own embedded toroidal magnetic fields; as it moves, plasma instabilities result in multiple deflections of the propagation direction, mimicking the kink behaviour of the Crab jet. The experiment is modelled with three-dimensional numerical simulations that show exactly how the instability develops and results in changes of direction of the jet.

langue originale	Anglais
Numéro d'article	13081
journal	Nature Communications
Volume	7
Les DOIs	https://doi.org/10.1038/ncomms13081
état	Publié - 7 oct. 2016
Modification externe	Oui

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10.1038/ncomms13081

Contient cette citation

Li, C. K., Tzeferacos, P., Lamb, D., Gregori, G., Norreys, P. A., Rosenberg, M. J., Follett, R. K., Froula, D. H., Koenig, M., Seguin, F. H., Frenje, J. A., Rinderknecht, H. G., Sio, H., Zylstra, A. B., Petrasso, R. D., Amendt, P. A., Park, H. S., Remington, B. A., Ryutov, D. D., ... Woolsey, N. C. (2016). Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet. Nature Communications, 7, Article 13081. https://doi.org/10.1038/ncomms13081

@article{c21392333c92460f9e04f0908d21bb80,

title = "Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet",

abstract = "The remarkable discovery by the Chandra X-ray observatory that the Crab nebula's jet periodically changes direction provides a challenge to our understanding of astrophysical jet dynamics. It has been suggested that this phenomenon may be the consequence of magnetic fields and magnetohydrodynamic instabilities, but experimental demonstration in a controlled laboratory environment has remained elusive. Here we report experiments that use high-power lasers to create a plasma jet that can be directly compared with the Crab jet through well-defined physical scaling laws. The jet generates its own embedded toroidal magnetic fields; as it moves, plasma instabilities result in multiple deflections of the propagation direction, mimicking the kink behaviour of the Crab jet. The experiment is modelled with three-dimensional numerical simulations that show exactly how the instability develops and results in changes of direction of the jet.",

author = "Li, \{C. K.\} and P. Tzeferacos and D. Lamb and G. Gregori and Norreys, \{P. A.\} and Rosenberg, \{M. J.\} and Follett, \{R. K.\} and Froula, \{D. H.\} and M. Koenig and Seguin, \{F. H.\} and Frenje, \{J. A.\} and Rinderknecht, \{H. G.\} and H. Sio and Zylstra, \{A. B.\} and Petrasso, \{R. D.\} and Amendt, \{P. A.\} and Park, \{H. S.\} and Remington, \{B. A.\} and Ryutov, \{D. D.\} and Wilks, \{S. C.\} and R. Betti and A. Frank and Hu, \{S. X.\} and Sangster, \{T. C.\} and P. Hartigan and Drake, \{R. P.\} and Kuranz, \{C. C.\} and Lebedev, \{S. V.\} and Woolsey, \{N. C.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2016.",

year = "2016",

month = oct,

day = "7",

doi = "10.1038/ncomms13081",

language = "English",

volume = "7",

journal = "Nature Communications",

issn = "2041-1723",

}

Li, CK, Tzeferacos, P, Lamb, D, Gregori, G, Norreys, PA, Rosenberg, MJ, Follett, RK, Froula, DH, Koenig, M, Seguin, FH, Frenje, JA, Rinderknecht, HG, Sio, H, Zylstra, AB, Petrasso, RD, Amendt, PA, Park, HS, Remington, BA, Ryutov, DD, Wilks, SC, Betti, R, Frank, A, Hu, SX, Sangster, TC, Hartigan, P, Drake, RP, Kuranz, CC, Lebedev, SV & Woolsey, NC 2016, 'Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet', Nature Communications, VOL. 7, 13081. https://doi.org/10.1038/ncomms13081

TY - JOUR

T1 - Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet

AU - Li, C. K.

AU - Tzeferacos, P.

AU - Lamb, D.

AU - Gregori, G.

AU - Norreys, P. A.

AU - Rosenberg, M. J.

AU - Follett, R. K.

AU - Froula, D. H.

AU - Koenig, M.

AU - Seguin, F. H.

AU - Frenje, J. A.

AU - Rinderknecht, H. G.

AU - Sio, H.

AU - Zylstra, A. B.

AU - Petrasso, R. D.

AU - Amendt, P. A.

AU - Park, H. S.

AU - Remington, B. A.

AU - Ryutov, D. D.

AU - Wilks, S. C.

AU - Betti, R.

AU - Frank, A.

AU - Hu, S. X.

AU - Sangster, T. C.

AU - Hartigan, P.

AU - Drake, R. P.

AU - Kuranz, C. C.

AU - Lebedev, S. V.

AU - Woolsey, N. C.

PY - 2016/10/7

Y1 - 2016/10/7

N2 - The remarkable discovery by the Chandra X-ray observatory that the Crab nebula's jet periodically changes direction provides a challenge to our understanding of astrophysical jet dynamics. It has been suggested that this phenomenon may be the consequence of magnetic fields and magnetohydrodynamic instabilities, but experimental demonstration in a controlled laboratory environment has remained elusive. Here we report experiments that use high-power lasers to create a plasma jet that can be directly compared with the Crab jet through well-defined physical scaling laws. The jet generates its own embedded toroidal magnetic fields; as it moves, plasma instabilities result in multiple deflections of the propagation direction, mimicking the kink behaviour of the Crab jet. The experiment is modelled with three-dimensional numerical simulations that show exactly how the instability develops and results in changes of direction of the jet.

AB - The remarkable discovery by the Chandra X-ray observatory that the Crab nebula's jet periodically changes direction provides a challenge to our understanding of astrophysical jet dynamics. It has been suggested that this phenomenon may be the consequence of magnetic fields and magnetohydrodynamic instabilities, but experimental demonstration in a controlled laboratory environment has remained elusive. Here we report experiments that use high-power lasers to create a plasma jet that can be directly compared with the Crab jet through well-defined physical scaling laws. The jet generates its own embedded toroidal magnetic fields; as it moves, plasma instabilities result in multiple deflections of the propagation direction, mimicking the kink behaviour of the Crab jet. The experiment is modelled with three-dimensional numerical simulations that show exactly how the instability develops and results in changes of direction of the jet.

U2 - 10.1038/ncomms13081

DO - 10.1038/ncomms13081

M3 - Article

C2 - 27713403

AN - SCOPUS:84990246174

SN - 2041-1723

VL - 7

JO - Nature Communications

JF - Nature Communications

M1 - 13081

ER -

Scaled laboratory experiments explain the kink behaviour of the Crab Nebula jet

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