Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field

B. Albertazzi; A. Ciardi; M. Nakatsutsumi; T. Vinci; J. Béard; R. Bonito; J. Billette; M. Borghesi; Z. Burkley; S. N. Chen; T. E. Cowan; T. Herrmannsdörfer; D. P. Higginson; F. Kroll; S. A. Pikuz; K. Naughton; L. Romagnani; C. Riconda; G. Revet; R. Riquier; H. P. Schlenvoigt; I. Yu Skobelev; A. Ya Faenov; A. Soloviev; M. Huarte-Espinosa; A. Frank; O. Portugall; H. Pépin; J. Fuchs

doi:10.1126/science.1259694

Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field

B. Albertazzi
, A. Ciardi
, M. Nakatsutsumi
, T. Vinci
, J. Béard
, R. Bonito
, J. Billette
, M. Borghesi
, Z. Burkley
, S. N. Chen
, T. E. Cowan
, T. Herrmannsdörfer
, D. P. Higginson
, F. Kroll
, S. A. Pikuz
, K. Naughton
, L. Romagnani
, C. Riconda
, G. Revet
, R. Riquier

H. P. Schlenvoigt, I. Yu Skobelev, A. Ya Faenov, A. Soloviev, M. Huarte-Espinosa, A. Frank, O. Portugall, H. Pépin, J. Fuchs

INRS-ÉMT
Osaka University
LERMA, Observatoire de Paris
Sorbonne Univ.
LULI
INSA
University of Palermo
INAF - Osservatorio Astronomico di Palermo G.S. Vaiana
Queen's University of Belfast
of Sciences
Technical University Dresden
Institute of Radiooncology - OncoRay
Institute of Bioorganic Chemistry
National Research Nuclear University MEPhI
Sorbonne Université
Centre d'Etudes de Limeil-Valenton
Institute of Applied Physics of the Russian Academy of Sciences
University of Rochester
University of Houston

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

Résumé

Although bipolar jets are seen emerging from a wide variety of astrophysical systems, the issue of their formation and morphology beyond their launching is still under study. Our scaled laboratory experiments, representative of young stellar object outflows, reveal that stable and narrow collimation of the entire flow can result from the presence of a poloidal magnetic field whose strength is consistent with observations.The laboratory plasma becomes focused with an interior cavity.This gives rise to a standing conical shock from which the jet emerges. Following simulations of the process at the full astrophysical scale,we conclude that it can also explain recently discovered x-ray emission features observed in low-density regions at the base of protostellar jets, such as the well-studied jet HH 154.

langue originale	Anglais
Pages (de - à)	325-328
Nombre de pages	4
journal	Science
Volume	346
Numéro de publication	6207
Les DOIs	https://doi.org/10.1126/science.1259694
état	Publié - 17 oct. 2014

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10.1126/science.1259694

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Albertazzi, B., Ciardi, A., Nakatsutsumi, M., Vinci, T., Béard, J., Bonito, R., Billette, J., Borghesi, M., Burkley, Z., Chen, S. N., Cowan, T. E., Herrmannsdörfer, T., Higginson, D. P., Kroll, F., Pikuz, S. A., Naughton, K., Romagnani, L., Riconda, C., Revet, G., ... Fuchs, J. (2014). Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field. Science, 346(6207), 325-328. https://doi.org/10.1126/science.1259694

@article{c22b38f7802d48fba5428598e3a14f40,

title = "Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field",

abstract = "Although bipolar jets are seen emerging from a wide variety of astrophysical systems, the issue of their formation and morphology beyond their launching is still under study. Our scaled laboratory experiments, representative of young stellar object outflows, reveal that stable and narrow collimation of the entire flow can result from the presence of a poloidal magnetic field whose strength is consistent with observations.The laboratory plasma becomes focused with an interior cavity.This gives rise to a standing conical shock from which the jet emerges. Following simulations of the process at the full astrophysical scale,we conclude that it can also explain recently discovered x-ray emission features observed in low-density regions at the base of protostellar jets, such as the well-studied jet HH 154.",

author = "B. Albertazzi and A. Ciardi and M. Nakatsutsumi and T. Vinci and J. B{\'e}ard and R. Bonito and J. Billette and M. Borghesi and Z. Burkley and Chen, \{S. N.\} and Cowan, \{T. E.\} and T. Herrmannsd{\"o}rfer and Higginson, \{D. P.\} and F. Kroll and Pikuz, \{S. A.\} and K. Naughton and L. Romagnani and C. Riconda and G. Revet and R. Riquier and Schlenvoigt, \{H. P.\} and Skobelev, \{I. Yu\} and Faenov, \{A. Ya\} and A. Soloviev and M. Huarte-Espinosa and A. Frank and O. Portugall and H. P{\'e}pin and J. Fuchs",

year = "2014",

month = oct,

day = "17",

doi = "10.1126/science.1259694",

language = "English",

volume = "346",

pages = "325--328",

journal = "Science",

issn = "0036-8075",

number = "6207",

}

Albertazzi, B, Ciardi, A, Nakatsutsumi, M, Vinci, T, Béard, J, Bonito, R, Billette, J, Borghesi, M, Burkley, Z, Chen, SN, Cowan, TE, Herrmannsdörfer, T, Higginson, DP, Kroll, F, Pikuz, SA, Naughton, K, Romagnani, L, Riconda, C, Revet, G, Riquier, R, Schlenvoigt, HP, Skobelev, IY, Faenov, AY, Soloviev, A, Huarte-Espinosa, M, Frank, A, Portugall, O, Pépin, H & Fuchs, J 2014, 'Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field', Science, VOL. 346, Numéro 6207, p. 325-328. https://doi.org/10.1126/science.1259694

TY - JOUR

T1 - Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field

AU - Albertazzi, B.

AU - Ciardi, A.

AU - Nakatsutsumi, M.

AU - Vinci, T.

AU - Béard, J.

AU - Bonito, R.

AU - Billette, J.

AU - Borghesi, M.

AU - Burkley, Z.

AU - Chen, S. N.

AU - Cowan, T. E.

AU - Herrmannsdörfer, T.

AU - Higginson, D. P.

AU - Kroll, F.

AU - Pikuz, S. A.

AU - Naughton, K.

AU - Romagnani, L.

AU - Riconda, C.

AU - Revet, G.

AU - Riquier, R.

AU - Schlenvoigt, H. P.

AU - Skobelev, I. Yu

AU - Faenov, A. Ya

AU - Soloviev, A.

AU - Huarte-Espinosa, M.

AU - Frank, A.

AU - Portugall, O.

AU - Pépin, H.

AU - Fuchs, J.

PY - 2014/10/17

Y1 - 2014/10/17

N2 - Although bipolar jets are seen emerging from a wide variety of astrophysical systems, the issue of their formation and morphology beyond their launching is still under study. Our scaled laboratory experiments, representative of young stellar object outflows, reveal that stable and narrow collimation of the entire flow can result from the presence of a poloidal magnetic field whose strength is consistent with observations.The laboratory plasma becomes focused with an interior cavity.This gives rise to a standing conical shock from which the jet emerges. Following simulations of the process at the full astrophysical scale,we conclude that it can also explain recently discovered x-ray emission features observed in low-density regions at the base of protostellar jets, such as the well-studied jet HH 154.

AB - Although bipolar jets are seen emerging from a wide variety of astrophysical systems, the issue of their formation and morphology beyond their launching is still under study. Our scaled laboratory experiments, representative of young stellar object outflows, reveal that stable and narrow collimation of the entire flow can result from the presence of a poloidal magnetic field whose strength is consistent with observations.The laboratory plasma becomes focused with an interior cavity.This gives rise to a standing conical shock from which the jet emerges. Following simulations of the process at the full astrophysical scale,we conclude that it can also explain recently discovered x-ray emission features observed in low-density regions at the base of protostellar jets, such as the well-studied jet HH 154.

UR - https://www.scopus.com/pages/publications/84908110118

U2 - 10.1126/science.1259694

DO - 10.1126/science.1259694

M3 - Article

AN - SCOPUS:84908110118

SN - 0036-8075

VL - 346

SP - 325

EP - 328

JO - Science

JF - Science

IS - 6207

ER -

Laboratory formation of a scaled protostellar jet by coaligned poloidal magnetic field

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