Colliding plasma experiments to study astrophysical-jet relevant physics

C. D. Gregory; J. Howe; B. Loupias; S. Myers; M. M. Notley; Y. Sakawa; A. Oya; R. Kodama; M. Koenig; E. Falize; S. Bouquet; C. Michaut; N. C. Woolsey

doi:10.1007/s10509-009-0035-5

Colliding plasma experiments to study astrophysical-jet relevant physics

C. D. Gregory, J. Howe, B. Loupias, S. Myers, M. M. Notley, Y. Sakawa, A. Oya, R. Kodama, M. Koenig, E. Falize, S. Bouquet, C. Michaut, N. C. Woolsey

Research output: Contribution to journal › Article › peer-review

Abstract

We present the results of experiments in which jets are created through the collision of two laser-produced plasmas. These experiments use a simple 'v-foil' target design: two thin foils are placed at an angle of 140° to each other, and irradiated with a high-energy laser. The plasmas from the rear face of these foils collide and drive plasma jets moving with a velocity of 300 km∈s^-1. By choosing the foil thickness and material to suit the laser conditions available, it has proven possible to create plasma jets for which the relevant scaling parameters show significant overlap with those of outflows associated with young stellar objects (YSOs). Preliminary results are also shown from experiments to study the effect of an ambient gas on jet propagation. Nominally identical experiments are conducted either in vacuum or in an ambient medium of 5 mbar of nitrogen gas. The gas is seen to increase the jet collimation, and to introduce shock structures at the head of the outflow.

Original language	English
Pages (from-to)	37-41
Number of pages	5
Journal	Astrophysics and Space Science
Volume	322
Issue number	1-4
DOIs	https://doi.org/10.1007/s10509-009-0035-5
Publication status	Published - 1 Aug 2009
Externally published	Yes

Keywords

Jets and outflows
Laboratory astrophysics
Young stellar objects

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10.1007/s10509-009-0035-5

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title = "Colliding plasma experiments to study astrophysical-jet relevant physics",

abstract = "We present the results of experiments in which jets are created through the collision of two laser-produced plasmas. These experiments use a simple 'v-foil' target design: two thin foils are placed at an angle of 140° to each other, and irradiated with a high-energy laser. The plasmas from the rear face of these foils collide and drive plasma jets moving with a velocity of 300 km∈s-1. By choosing the foil thickness and material to suit the laser conditions available, it has proven possible to create plasma jets for which the relevant scaling parameters show significant overlap with those of outflows associated with young stellar objects (YSOs). Preliminary results are also shown from experiments to study the effect of an ambient gas on jet propagation. Nominally identical experiments are conducted either in vacuum or in an ambient medium of 5 mbar of nitrogen gas. The gas is seen to increase the jet collimation, and to introduce shock structures at the head of the outflow.",

keywords = "Jets and outflows, Laboratory astrophysics, Young stellar objects",

author = "Gregory, \{C. D.\} and J. Howe and B. Loupias and S. Myers and Notley, \{M. M.\} and Y. Sakawa and A. Oya and R. Kodama and M. Koenig and E. Falize and S. Bouquet and C. Michaut and Woolsey, \{N. C.\}",

year = "2009",

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doi = "10.1007/s10509-009-0035-5",

language = "English",

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journal = "Astrophysics and Space Science",

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T1 - Colliding plasma experiments to study astrophysical-jet relevant physics

AU - Gregory, C. D.

AU - Howe, J.

AU - Loupias, B.

AU - Myers, S.

AU - Notley, M. M.

AU - Sakawa, Y.

AU - Oya, A.

AU - Kodama, R.

AU - Koenig, M.

AU - Falize, E.

AU - Bouquet, S.

AU - Michaut, C.

AU - Woolsey, N. C.

PY - 2009/8/1

Y1 - 2009/8/1

N2 - We present the results of experiments in which jets are created through the collision of two laser-produced plasmas. These experiments use a simple 'v-foil' target design: two thin foils are placed at an angle of 140° to each other, and irradiated with a high-energy laser. The plasmas from the rear face of these foils collide and drive plasma jets moving with a velocity of 300 km∈s-1. By choosing the foil thickness and material to suit the laser conditions available, it has proven possible to create plasma jets for which the relevant scaling parameters show significant overlap with those of outflows associated with young stellar objects (YSOs). Preliminary results are also shown from experiments to study the effect of an ambient gas on jet propagation. Nominally identical experiments are conducted either in vacuum or in an ambient medium of 5 mbar of nitrogen gas. The gas is seen to increase the jet collimation, and to introduce shock structures at the head of the outflow.

AB - We present the results of experiments in which jets are created through the collision of two laser-produced plasmas. These experiments use a simple 'v-foil' target design: two thin foils are placed at an angle of 140° to each other, and irradiated with a high-energy laser. The plasmas from the rear face of these foils collide and drive plasma jets moving with a velocity of 300 km∈s-1. By choosing the foil thickness and material to suit the laser conditions available, it has proven possible to create plasma jets for which the relevant scaling parameters show significant overlap with those of outflows associated with young stellar objects (YSOs). Preliminary results are also shown from experiments to study the effect of an ambient gas on jet propagation. Nominally identical experiments are conducted either in vacuum or in an ambient medium of 5 mbar of nitrogen gas. The gas is seen to increase the jet collimation, and to introduce shock structures at the head of the outflow.

KW - Jets and outflows

KW - Laboratory astrophysics

KW - Young stellar objects

U2 - 10.1007/s10509-009-0035-5

DO - 10.1007/s10509-009-0035-5

M3 - Article

AN - SCOPUS:67650407419

SN - 0004-640X

VL - 322

SP - 37

EP - 41

JO - Astrophysics and Space Science

JF - Astrophysics and Space Science

IS - 1-4

ER -

Colliding plasma experiments to study astrophysical-jet relevant physics

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Keywords

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