Long plasma source for heavy ion beam charge neutralization

Philip C. Efthimion; Erik P. Gilson; Larry Grisham; Ronald C. Davidson; Larry B. Grant Logan; Peter A. Seidl; William Waldron

doi:10.1016/j.nima.2009.03.096

Long plasma source for heavy ion beam charge neutralization

Philip C. Efthimion
, Erik P. Gilson
, Larry Grisham
, Ronald C. Davidson
, Larry B. Grant Logan
, Peter A. Seidl
, William Waldron

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

11 Scopus citations

Abstract

Plasmas are a source of unbound electrons for charge neutralizing intense heavy ion beams to focus them to a small spot size and compress their axial length. The plasma source should operate at low neutral pressures and without strong externally applied fields. To produce long plasma columns, sources based upon ferroelectric ceramics with large dielectric coefficients have been developed. The source utilizes the ferroelectric ceramic BaTiO₃ to form metal plasma. The drift tube inner surface of the Neutralized Drift Compression Experiment (NDCX) is covered with ceramic material. High voltage (∼8 kV) is applied between the drift tube and the front surface of the ceramics. A BaTiO₃ source comprised of five 20-cm-long sources has been tested and characterized, producing relatively uniform plasma in the 5×10¹⁰ cm^-3 density range. The source was integrated into the NDCX device for charge neutralization and beam compression experiments, and yielded current compression ratios ∼120. Present research is developing multi-meter-long and higher density sources to support beam compression experiments for high-energy-density physics applications.

Original language	English (US)
Pages (from-to)	124-127
Number of pages	4
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	606
Issue number	1-2
DOIs	https://doi.org/10.1016/j.nima.2009.03.096
State	Published - Jul 11 2009

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Instrumentation

Keywords

Beam neutralization
Neutralized transport
Plasma source

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10.1016/j.nima.2009.03.096

Cite this

Efthimion, P. C., Gilson, E. P., Grisham, L., Davidson, R. C., Grant Logan, L. B., Seidl, P. A., & Waldron, W. (2009). Long plasma source for heavy ion beam charge neutralization. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 606(1-2), 124-127. https://doi.org/10.1016/j.nima.2009.03.096

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abstract = "Plasmas are a source of unbound electrons for charge neutralizing intense heavy ion beams to focus them to a small spot size and compress their axial length. The plasma source should operate at low neutral pressures and without strong externally applied fields. To produce long plasma columns, sources based upon ferroelectric ceramics with large dielectric coefficients have been developed. The source utilizes the ferroelectric ceramic BaTiO3 to form metal plasma. The drift tube inner surface of the Neutralized Drift Compression Experiment (NDCX) is covered with ceramic material. High voltage (∼8 kV) is applied between the drift tube and the front surface of the ceramics. A BaTiO3 source comprised of five 20-cm-long sources has been tested and characterized, producing relatively uniform plasma in the 5×1010 cm-3 density range. The source was integrated into the NDCX device for charge neutralization and beam compression experiments, and yielded current compression ratios ∼120. Present research is developing multi-meter-long and higher density sources to support beam compression experiments for high-energy-density physics applications.",

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AU - Efthimion, Philip C.

AU - Gilson, Erik P.

AU - Grisham, Larry

AU - Davidson, Ronald C.

AU - Grant Logan, Larry B.

AU - Seidl, Peter A.

AU - Waldron, William

PY - 2009/7/11

Y1 - 2009/7/11

N2 - Plasmas are a source of unbound electrons for charge neutralizing intense heavy ion beams to focus them to a small spot size and compress their axial length. The plasma source should operate at low neutral pressures and without strong externally applied fields. To produce long plasma columns, sources based upon ferroelectric ceramics with large dielectric coefficients have been developed. The source utilizes the ferroelectric ceramic BaTiO3 to form metal plasma. The drift tube inner surface of the Neutralized Drift Compression Experiment (NDCX) is covered with ceramic material. High voltage (∼8 kV) is applied between the drift tube and the front surface of the ceramics. A BaTiO3 source comprised of five 20-cm-long sources has been tested and characterized, producing relatively uniform plasma in the 5×1010 cm-3 density range. The source was integrated into the NDCX device for charge neutralization and beam compression experiments, and yielded current compression ratios ∼120. Present research is developing multi-meter-long and higher density sources to support beam compression experiments for high-energy-density physics applications.

AB - Plasmas are a source of unbound electrons for charge neutralizing intense heavy ion beams to focus them to a small spot size and compress their axial length. The plasma source should operate at low neutral pressures and without strong externally applied fields. To produce long plasma columns, sources based upon ferroelectric ceramics with large dielectric coefficients have been developed. The source utilizes the ferroelectric ceramic BaTiO3 to form metal plasma. The drift tube inner surface of the Neutralized Drift Compression Experiment (NDCX) is covered with ceramic material. High voltage (∼8 kV) is applied between the drift tube and the front surface of the ceramics. A BaTiO3 source comprised of five 20-cm-long sources has been tested and characterized, producing relatively uniform plasma in the 5×1010 cm-3 density range. The source was integrated into the NDCX device for charge neutralization and beam compression experiments, and yielded current compression ratios ∼120. Present research is developing multi-meter-long and higher density sources to support beam compression experiments for high-energy-density physics applications.

KW - Beam neutralization

KW - Neutralized transport

KW - Plasma source

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ER -

Long plasma source for heavy ion beam charge neutralization

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