Optical diagnostics on helical flux compression generators

Optical diagnostics on helical flux compression generators

Explosively driven magnetic flux compression (MFC) has been object of research for more than three decades. Actual interest in the basic physical picture of flux compression has been heightened by a newly started Department of Defense (DoD) Multi-University Research Initiative. The emphasis is on he...

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Veröffentlicht in:IEEE transactions on plasma science 2000-10, Vol.28 (5), p.1445-1450
Hauptverfasser: Neuber, A.A., Dickens, J.C., Krompholz, H., Schmidt, M.F.C., Baird, J., Worsey, P.N., Kristiansen, M.
Format: Artikel
Sprache:eng
Schlagworte:
Cameras
Coils
Compressing
Diagnostic systems
Diagnostics
Explosions
Explosives
Flux
Generators
Helical
Image resolution
Liners
Magnetic flux
Magnetism
Optical losses
Optics
Photography
Physics
Research initiatives
Spatial resolution
Spectroscopy
Spectrum analysis
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container_end_page 1450
container_issue 5
container_start_page 1445
container_title IEEE transactions on plasma science
container_volume 28
creator Neuber, A.A.
Dickens, J.C.
Krompholz, H.
Schmidt, M.F.C.
Baird, J.
Worsey, P.N.
Kristiansen, M.
description Explosively driven magnetic flux compression (MFC) has been object of research for more than three decades. Actual interest in the basic physical picture of flux compression has been heightened by a newly started Department of Defense (DoD) Multi-University Research Initiative. The emphasis is on helical flux compression generators comprising a hollow cylindrical metal liner filled with high explosives and at least one helical coil surrounding the liner. After the application of a seed current, magnetic flux is trapped and high current is generated by moving, i.e., expanding, the liner explosively along the winding of the helical coil. Several key factors involved in the temporal development can be addresses by optical diagnostics. 1) The uniformity of liner expansion is captured by framing camera photography and supplemented by laser illuminated high spatial and temporal resolution imaging. Also, X-ray flash photography is insensitive to possible image blur by shockwaves coming from the exploding liner. 2) The thermodynamic state of the shocked gas is assessed by spatially and temporally resolved emission spectroscopy. 3) The moving liner-coil contact point is a possible source of high electric losses and is preferentially monitored also by emission spectroscopy. Since optical access to the region between liner and coil is not always guaranteed, optical fibers can he used to extract light from the generator. The information so gained will give, together with detailed electrical diagnostics, more insight in the physical loss mechanisms involved in MFC.
doi_str_mv 10.1109/27.901212
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Also, X-ray flash photography is insensitive to possible image blur by shockwaves coming from the exploding liner. 2) The thermodynamic state of the shocked gas is assessed by spatially and temporally resolved emission spectroscopy. 3) The moving liner-coil contact point is a possible source of high electric losses and is preferentially monitored also by emission spectroscopy. Since optical access to the region between liner and coil is not always guaranteed, optical fibers can he used to extract light from the generator. 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Also, X-ray flash photography is insensitive to possible image blur by shockwaves coming from the exploding liner. 2) The thermodynamic state of the shocked gas is assessed by spatially and temporally resolved emission spectroscopy. 3) The moving liner-coil contact point is a possible source of high electric losses and is preferentially monitored also by emission spectroscopy. Since optical access to the region between liner and coil is not always guaranteed, optical fibers can he used to extract light from the generator. The information so gained will give, together with detailed electrical diagnostics, more insight in the physical loss mechanisms involved in MFC.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/27.901212</doi><tpages>6</tpages></addata></record>
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subjects Cameras
Coils
Compressing
Diagnostic systems
Diagnostics
Explosions
Explosives
Flux
Generators
Helical
Image resolution
Liners
Magnetic flux
Magnetism
Optical losses
Optics
Photography
Physics
Research initiatives
Spatial resolution
Spectroscopy
Spectrum analysis
title Optical diagnostics on helical flux compression generators
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