Use of a radial self-field diode geometry for intense pulsed ion beam generation at 6 MeV on Hermes III

Harper-Slaboszewicz, V.; Mikkelson, K. A.; Ginn, W. C.; Ottinger, P. F.; Schumer, J. W.

doi:10.1063/1.4903947

Title: Use of a radial self-field diode geometry for intense pulsed ion beam generation at 6 MeV on Hermes III

Journal Article · Mon Dec 15 00:00:00 EST 2014 · Physics of Plasmas

DOI:https://doi.org/10.1063/1.4903947· OSTI ID:22407937

Harper-Slaboszewicz, V.; Mikkelson, K. A.; Ginn, W. C. ^[1]; Ottinger, P. F. ^[2]; Schumer, J. W. ^[3]

Sandia National Laboratories, Albuquerque, New Mexico 87185 (United States)
ENGILITY, Chantilly, Virginia 20151 (United States)
Plasma Physics Division, Naval Research Laboratory, Washington, DC 20375 (United States)

We investigate the generation of intense pulsed focused ion beams at the 6 MeV level using an inductive voltage adder (IVA) pulsed-power generator, which employs a magnetically insulated transmission line (MITL). Such IVA machines typical run at an impedance of few tens of Ohms. Previous successful intense ion beam generation experiments have often featured an “axial” pinch-reflex ion diode (i.e., with an axial anode-cathode gap) and operated on a conventional Marx generator/water line driver with an impedance of a few Ohms and no need for an MITL. The goals of these experiments are to develop a pinch-reflex ion diode geometry that has an impedance to efficiently match to an IVA, produces a reasonably high ion current fraction, captures the vacuum electron current flowing forward in the MITL, and focuses the resulting ion beam to small spot size. A new “radial” pinch-reflex ion diode (i.e., with a radial anode-cathode gap) is found to best demonstrate these properties. Operation in both positive and negative polarities was undertaken, although the negative polarity experiments are emphasized. Particle-in-cell (PIC) simulations are consistent with experimental results indicating that, for diode impedances less than the self-limited impedance of the MITL, almost all of the forward-going IVA vacuum electron flow current is incorporated into the diode current. PIC results also provide understanding of the diode-impedance and ion-focusing properties of the diode. In addition, a substantial high-energy ion population is also identified propagating in the “reverse” direction, i.e., from the back side of the anode foil in the electron beam dump.

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OSTI ID:: 22407937

Journal Information:: Physics of Plasmas, Vol. 21, Issue 12; Other Information: (c) 2014 AIP Publishing LLC; Country of input: International Atomic Energy Agency (IAEA); ISSN 1070-664X

Country of Publication:: United States

Language:: English

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Method for improved voltage determination for pulsed power systems utilizing a magnetically insulated transmission line Ottinger, P. F.; Renk, T. J.; Schumer, J. W. Physics of Plasmas, Vol. 26, Issue 2 https://doi.org/10.1063/1.5084733	journal	February 2019
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70 PLASMA PHYSICS AND FUSION TECHNOLOGY
ACCELERATORS
ANODES
BEAM CURRENTS
CATHODES
COMPUTERIZED SIMULATION
ELECTRIC POTENTIAL
ELECTRON BEAMS
ELECTRON SOURCES
ELECTRONS
FOCUSING
GEOMETRY
ION BEAMS
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Title: Use of a radial self-field diode geometry for intense pulsed ion beam generation at 6 MeV on Hermes III

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