Proton radiography and accurate density measurements: A window into shock wave processes

P. A. Rigg; C. L. Schwartz; R. S. Hixson; G. E. Hogan; K. K. Kwiatkowski; F. G. Mariam; M. Marr-Lyon; F. E. Merrill; C. L. Morris; P. Rightly; A. Saunders; D. Tupa

doi:10.1103/PhysRevB.77.220101

Proton radiography and accurate density measurements: A window into shock wave processes

P. A. Rigg
, C. L. Schwartz
, R. S. Hixson
, G. E. Hogan
, K. K. Kwiatkowski
, F. G. Mariam
, M. Marr-Lyon
, F. E. Merrill
, C. L. Morris
, P. Rightly
, A. Saunders
, D. Tupa

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

38 Scopus citations

Abstract

Direct density measurements were made from shock-loaded aluminum and copper samples by combining plate-impact experiments with proton radiography at the Los Alamos Neutron Science Center. Flyer plates were accelerated using a 40 mm bore powder gun to create a shock wave in a sample. The sample material was then interrogated in real time using the proton radiography facility. The increase in density behind the shock front causes a measurable change in the transmission of protons through the sample, which can then be quantified as a density value in the material. Hugoniot values were calculated using more traditional techniques to evaluate the accuracy of the radiographically obtained density measurements.

Original language	English
Article number	220101
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	77
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevB.77.220101
State	Published - Jun 5 2008
Externally published	Yes

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Rigg, P. A., Schwartz, C. L., Hixson, R. S., Hogan, G. E., Kwiatkowski, K. K., Mariam, F. G., Marr-Lyon, M., Merrill, F. E., Morris, C. L., Rightly, P., Saunders, A., & Tupa, D. (2008). Proton radiography and accurate density measurements: A window into shock wave processes. Physical Review B - Condensed Matter and Materials Physics, 77(22), Article 220101. https://doi.org/10.1103/PhysRevB.77.220101

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title = "Proton radiography and accurate density measurements: A window into shock wave processes",

abstract = "Direct density measurements were made from shock-loaded aluminum and copper samples by combining plate-impact experiments with proton radiography at the Los Alamos Neutron Science Center. Flyer plates were accelerated using a 40 mm bore powder gun to create a shock wave in a sample. The sample material was then interrogated in real time using the proton radiography facility. The increase in density behind the shock front causes a measurable change in the transmission of protons through the sample, which can then be quantified as a density value in the material. Hugoniot values were calculated using more traditional techniques to evaluate the accuracy of the radiographically obtained density measurements.",

author = "Rigg, \{P. A.\} and Schwartz, \{C. L.\} and Hixson, \{R. S.\} and Hogan, \{G. E.\} and Kwiatkowski, \{K. K.\} and Mariam, \{F. G.\} and M. Marr-Lyon and Merrill, \{F. E.\} and Morris, \{C. L.\} and P. Rightly and A. Saunders and D. Tupa",

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doi = "10.1103/PhysRevB.77.220101",

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Rigg, PA, Schwartz, CL, Hixson, RS, Hogan, GE, Kwiatkowski, KK, Mariam, FG, Marr-Lyon, M, Merrill, FE, Morris, CL, Rightly, P, Saunders, A & Tupa, D 2008, 'Proton radiography and accurate density measurements: A window into shock wave processes', Physical Review B - Condensed Matter and Materials Physics, vol. 77, no. 22, 220101. https://doi.org/10.1103/PhysRevB.77.220101

TY - JOUR

T1 - Proton radiography and accurate density measurements

T2 - A window into shock wave processes

AU - Rigg, P. A.

AU - Schwartz, C. L.

AU - Hixson, R. S.

AU - Hogan, G. E.

AU - Kwiatkowski, K. K.

AU - Mariam, F. G.

AU - Marr-Lyon, M.

AU - Merrill, F. E.

AU - Morris, C. L.

AU - Rightly, P.

AU - Saunders, A.

AU - Tupa, D.

PY - 2008/6/5

Y1 - 2008/6/5

N2 - Direct density measurements were made from shock-loaded aluminum and copper samples by combining plate-impact experiments with proton radiography at the Los Alamos Neutron Science Center. Flyer plates were accelerated using a 40 mm bore powder gun to create a shock wave in a sample. The sample material was then interrogated in real time using the proton radiography facility. The increase in density behind the shock front causes a measurable change in the transmission of protons through the sample, which can then be quantified as a density value in the material. Hugoniot values were calculated using more traditional techniques to evaluate the accuracy of the radiographically obtained density measurements.

AB - Direct density measurements were made from shock-loaded aluminum and copper samples by combining plate-impact experiments with proton radiography at the Los Alamos Neutron Science Center. Flyer plates were accelerated using a 40 mm bore powder gun to create a shock wave in a sample. The sample material was then interrogated in real time using the proton radiography facility. The increase in density behind the shock front causes a measurable change in the transmission of protons through the sample, which can then be quantified as a density value in the material. Hugoniot values were calculated using more traditional techniques to evaluate the accuracy of the radiographically obtained density measurements.

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DO - 10.1103/PhysRevB.77.220101

M3 - Article

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SN - 1098-0121

VL - 77

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 22

M1 - 220101

ER -

Proton radiography and accurate density measurements: A window into shock wave processes

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