A NEW DIAGNOSTIC OF MAGNETIC FIELD STRENGTHS IN RADIATIVELY COOLED SHOCKS

ABSTRACT We show that it is possible to measure Alfvénic Mach numbers, defined as the shock velocity in the flow divided by the Alfvén velocity, for low-velocity (Vshock 100 km s−1) radiative shocks. The method combines observations of bright forbidden lines with a measure of the size of the cooling...

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Bibliographic Details
Published in:The Astrophysical journal 2015-09, Vol.811 (1), p.1-10
Main Authors: Hartigan, P., Wright, A.
Format: Article
Language:English
Subjects:
ASTRONOMY AND ASTROPHYSICS
Compressed
Diagnostic systems
Emission
Herbig-Haro objects
Herbig–Haro objects – ISM: jets and outflows – shock waves
ISM: jets and outflows
Mach number
Magnetic fields
Mathematical analysis
Perturbation methods
Separation
shock waves
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Summary:ABSTRACT We show that it is possible to measure Alfvénic Mach numbers, defined as the shock velocity in the flow divided by the Alfvén velocity, for low-velocity (Vshock 100 km s−1) radiative shocks. The method combines observations of bright forbidden lines with a measure of the size of the cooling zone, the latter typically obtained from spatial separation between the Balmer emission lines and the forbidden lines. Because magnetic fields become compressed as gas in the postshock region cools, even relatively weak preshock magnetic fields can be detected with this method. We derive analytical formulae that explain how the spatial separations relate to emission-line ratios, and compute a large grid of radiatively cooled shock models to develop diagnostic diagrams that can be used to derive Alfvénic Mach numbers in flows. Applying the method to existing data for a bright knot in the HH 111 jet, we obtain a relatively low Alfvénic Mach number of ∼2, indicative of a magnetized jet that has super-magnetosonic velocity perturbations within it.
ISSN:0004-637X
1538-4357
1538-4357
DOI:10.1088/0004-637X/811/1/12