Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator

A. S. Chuvatin; V. L. Kantsyrev; L. I. Rudakov; M. E. Cuneo; A. L. Astanovitskiy; R. Presura; A. S. Safronova; W. Cline; K. M. Williamson; I. Shrestha; G. C. Osborne; B. Legalloudec; V. Nalajala; T. D. Pointon; K. A. Mikkelson

doi:10.1103/PhysRevSTAB.13.010401

Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator

A. S. Chuvatin
, V. L. Kantsyrev
, L. I. Rudakov
, M. E. Cuneo
, A. L. Astanovitskiy
, R. Presura
, A. S. Safronova
, W. Cline
, K. M. Williamson
, I. Shrestha
, G. C. Osborne
, B. Legalloudec
, V. Nalajala
, T. D. Pointon
, K. A. Mikkelson

University of Nevada, Reno
Icarus Research
Sandia National Laboratories, New Mexico

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

Résumé

We investigate the operation of a load current multiplier (LCM) on a pulse-forming-line nanosecond pulse-power generator. Potential benefits of using the LCM technique on such generators are studied analytically for a simplified case. A concrete LCM design on the Zebra accelerator (1.9 Ohm, ∼1MA, 100 ns) is described. This design is demonstrated experimentally with high-voltage power pulses having a rise time of dozens of nanoseconds. Higher currents and magnetic energies were observed in constant-inductance solid-state loads when a better generator-to-load energy coupling was achieved. The load current on Zebra was increased from the nominal 0.8-0.9 MA up to about 1.6 MA. This result was obtained without modifying the generator energetics or architecture and it is in good agreement with the presented numerical simulations. Validation of the LCM technique at a nanosecond time scale is of importance for the high-energy-density physics research.

langue originale	Anglais
Numéro d'article	010401
journal	Physical Review Special Topics - Accelerators and Beams
Volume	13
Numéro de publication	1
Les DOIs	https://doi.org/10.1103/PhysRevSTAB.13.010401
état	Publié - 25 janv. 2010

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10.1103/PhysRevSTAB.13.010401

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Chuvatin, A. S., Kantsyrev, V. L., Rudakov, L. I., Cuneo, M. E., Astanovitskiy, A. L., Presura, R., Safronova, A. S., Cline, W., Williamson, K. M., Shrestha, I., Osborne, G. C., Legalloudec, B., Nalajala, V., Pointon, T. D., & Mikkelson, K. A. (2010). Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator. Physical Review Special Topics - Accelerators and Beams, 13(1), Article 010401. https://doi.org/10.1103/PhysRevSTAB.13.010401

@article{9b910281b69d4a958b75fd669687c39c,

title = "Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator",

abstract = "We investigate the operation of a load current multiplier (LCM) on a pulse-forming-line nanosecond pulse-power generator. Potential benefits of using the LCM technique on such generators are studied analytically for a simplified case. A concrete LCM design on the Zebra accelerator (1.9 Ohm, ∼1MA, 100 ns) is described. This design is demonstrated experimentally with high-voltage power pulses having a rise time of dozens of nanoseconds. Higher currents and magnetic energies were observed in constant-inductance solid-state loads when a better generator-to-load energy coupling was achieved. The load current on Zebra was increased from the nominal 0.8-0.9 MA up to about 1.6 MA. This result was obtained without modifying the generator energetics or architecture and it is in good agreement with the presented numerical simulations. Validation of the LCM technique at a nanosecond time scale is of importance for the high-energy-density physics research.",

author = "Chuvatin, \{A. S.\} and Kantsyrev, \{V. L.\} and Rudakov, \{L. I.\} and Cuneo, \{M. E.\} and Astanovitskiy, \{A. L.\} and R. Presura and Safronova, \{A. S.\} and W. Cline and Williamson, \{K. M.\} and I. Shrestha and Osborne, \{G. C.\} and B. Legalloudec and V. Nalajala and Pointon, \{T. D.\} and Mikkelson, \{K. A.\}",

year = "2010",

month = jan,

day = "25",

doi = "10.1103/PhysRevSTAB.13.010401",

language = "English",

volume = "13",

journal = "Physical Review Special Topics - Accelerators and Beams",

issn = "1098-4402",

number = "1",

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Chuvatin, AS, Kantsyrev, VL, Rudakov, LI, Cuneo, ME, Astanovitskiy, AL, Presura, R, Safronova, AS, Cline, W, Williamson, KM, Shrestha, I, Osborne, GC, Legalloudec, B, Nalajala, V, Pointon, TD & Mikkelson, KA 2010, 'Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator', Physical Review Special Topics - Accelerators and Beams, VOL. 13, Numéro 1, 010401. https://doi.org/10.1103/PhysRevSTAB.13.010401

TY - JOUR

T1 - Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator

AU - Chuvatin, A. S.

AU - Kantsyrev, V. L.

AU - Rudakov, L. I.

AU - Cuneo, M. E.

AU - Astanovitskiy, A. L.

AU - Presura, R.

AU - Safronova, A. S.

AU - Cline, W.

AU - Williamson, K. M.

AU - Shrestha, I.

AU - Osborne, G. C.

AU - Legalloudec, B.

AU - Nalajala, V.

AU - Pointon, T. D.

AU - Mikkelson, K. A.

PY - 2010/1/25

Y1 - 2010/1/25

N2 - We investigate the operation of a load current multiplier (LCM) on a pulse-forming-line nanosecond pulse-power generator. Potential benefits of using the LCM technique on such generators are studied analytically for a simplified case. A concrete LCM design on the Zebra accelerator (1.9 Ohm, ∼1MA, 100 ns) is described. This design is demonstrated experimentally with high-voltage power pulses having a rise time of dozens of nanoseconds. Higher currents and magnetic energies were observed in constant-inductance solid-state loads when a better generator-to-load energy coupling was achieved. The load current on Zebra was increased from the nominal 0.8-0.9 MA up to about 1.6 MA. This result was obtained without modifying the generator energetics or architecture and it is in good agreement with the presented numerical simulations. Validation of the LCM technique at a nanosecond time scale is of importance for the high-energy-density physics research.

AB - We investigate the operation of a load current multiplier (LCM) on a pulse-forming-line nanosecond pulse-power generator. Potential benefits of using the LCM technique on such generators are studied analytically for a simplified case. A concrete LCM design on the Zebra accelerator (1.9 Ohm, ∼1MA, 100 ns) is described. This design is demonstrated experimentally with high-voltage power pulses having a rise time of dozens of nanoseconds. Higher currents and magnetic energies were observed in constant-inductance solid-state loads when a better generator-to-load energy coupling was achieved. The load current on Zebra was increased from the nominal 0.8-0.9 MA up to about 1.6 MA. This result was obtained without modifying the generator energetics or architecture and it is in good agreement with the presented numerical simulations. Validation of the LCM technique at a nanosecond time scale is of importance for the high-energy-density physics research.

UR - https://www.scopus.com/pages/publications/77953213437

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DO - 10.1103/PhysRevSTAB.13.010401

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SN - 1098-4402

VL - 13

JO - Physical Review Special Topics - Accelerators and Beams

JF - Physical Review Special Topics - Accelerators and Beams

IS - 1

M1 - 010401

ER -

Operation of a load current multiplier on a nanosecond mega-ampere pulse forming line generator

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