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Zellner, M. B., McNeil, W. Vogan, Hammerberg, J. E., Hixson, R. S., Obst, A. W., Olson, R. T., Payton, J. R., Rigg, P. A., Routley, N., Stevens, G. D., Turley, W. D., Veeser, L., Buttler, W. T. (2008) Probing the underlying physics of ejecta production from shocked Sn samples. Journal of Applied Physics, 103 (12). 123502pp. doi:10.1063/1.2939253

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Reference TypeJournal (article/letter/editorial)
TitleProbing the underlying physics of ejecta production from shocked Sn samples
JournalJournal of Applied Physics
AuthorsZellner, M. B.Author
McNeil, W. VoganAuthor
Hammerberg, J. E.Author
Hixson, R. S.Author
Obst, A. W.Author
Olson, R. T.Author
Payton, J. R.Author
Rigg, P. A.Author
Routley, N.Author
Stevens, G. D.Author
Turley, W. D.Author
Veeser, L.Author
Buttler, W. T.Author
Year2008 (June 15)Volume103
Issue12
PublisherAIP Publishing
DOIdoi:10.1063/1.2939253Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID5153423Long-form Identifiermindat:1:5:5153423:9
GUID0
Full ReferenceZellner, M. B., McNeil, W. Vogan, Hammerberg, J. E., Hixson, R. S., Obst, A. W., Olson, R. T., Payton, J. R., Rigg, P. A., Routley, N., Stevens, G. D., Turley, W. D., Veeser, L., Buttler, W. T. (2008) Probing the underlying physics of ejecta production from shocked Sn samples. Journal of Applied Physics, 103 (12). 123502pp. doi:10.1063/1.2939253
Plain TextZellner, M. B., McNeil, W. Vogan, Hammerberg, J. E., Hixson, R. S., Obst, A. W., Olson, R. T., Payton, J. R., Rigg, P. A., Routley, N., Stevens, G. D., Turley, W. D., Veeser, L., Buttler, W. T. (2008) Probing the underlying physics of ejecta production from shocked Sn samples. Journal of Applied Physics, 103 (12). 123502pp. doi:10.1063/1.2939253
In(2008, June) Journal of Applied Physics Vol. 103 (12) AIP Publishing

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Zellner, M. B., Grover, M., Hammerberg, J. E., Hixson, R. S., Iverson, A. J., Macrum, G. S., Morley, K. B., Obst, A. W., Olson, R. T., Payton, J. R., Rigg, P. A., Routley, N., Stevens, G. D., Turley, W. D., Veeser, L., Buttler, W. T. (2007) Effects of shock-breakout pressure on ejection of micron-scale material from shocked tin surfaces. Journal of Applied Physics, 102 (1). 13522pp. doi:10.1063/1.2752130
Zellner, M. B., Grover, M., Hammerberg, J. E., Hixson, R. S., Iverson, A. J., Macrum, G. S., Morley, K. B., Obst, A. W., Olson, R. T., Payton, J. R., Rigg, P. A., Routley, N., Stevens, G. D., Turley, W. D., Veeser, L., Buttler, W. T. (2008) Erratum: “Effects of shock breakout pressure on ejection of micron scale material from shocked tin surfaces” [J. Appl. Phys. 102, 013522 (2007)]. Journal of Applied Physics, 103 (10). 109901pp. doi:10.1063/1.2931035
Buttler, W. T., Zellner, M. B., Olson, R. T., Rigg, P. A., Hixson, R. S., Hammerberg, J. E., Obst, A. W., Payton, J. R., Iverson, A., Young, J. (2007) Dynamic comparisons of piezoelectric ejecta diagnostics. Journal of Applied Physics, 101 (6). 63547pp. doi:10.1063/1.2712177
Vogan, W. S., Anderson, W. W., Grover, M., Hammerberg, J. E., King, N. S. P., Lamoreaux, S. K., Macrum, G., Morley, K. B., Rigg, P. A., Stevens, G. D., Turley, W. D., Veeser, L. R., Buttler, W. T. (2005) Piezoelectric characterization of ejecta from shocked tin surfaces. Journal of Applied Physics, 98 (11). 113508pp. doi:10.1063/1.2132521
Zellner, M. B., Vogan McNeil, W., Gray, G. T., Huerta, D. C., King, N. S. P., Neal, G. E., Valentine, S. J., Payton, J. R., Rubin, J., Stevens, G. D., Turley, W. D., Buttler, W. T. (2008) Surface preparation methods to enhance dynamic surface property measurements of shocked metal surfaces. Journal of Applied Physics, 103 (8). 83521pp. doi:10.1063/1.2906107
Buttler, W. T., Hixson, R. S., King, N. S. P., Olson, R. T., Rigg, P. A., Zellner, M. B., Routley, N., Rimmer, A. (2007) Method to separate and determine the amount of ejecta produced in a second-shock material-fragmentation event. Applied Physics Letters, 90 (15). 151921pp. doi:10.1063/1.2722676
Buttler, W. T., OrĂł, D. M., Olson, R. T., Cherne, F. J., Hammerberg, J. E., Hixson, R. S., Monfared, S. K., Pack, C. L., Rigg, P. A., Stone, J. B., Terrones, G. (2014) Second shock ejecta measurements with an explosively driven two-shockwave drive. Journal of Applied Physics, 116 (10). 103519pp. doi:10.1063/1.4895053
Buttler, W T, OrĂł, D M, Mariam, F G, Saunders, A, Andrews, M J, Cherne, F J, Hammerberg, J E, Hixson, R S, Monfared, S K, Morris, C, Olson, R T, Preston, D L, Stone, J B, Terrones, G, Tupa, D, Vogan-McNeil, W (2014) Explosively driven two-shockwave tools with applications. Journal of Physics: Conference Series, 500. 112014pp. doi:10.1088/1742-6596/500/11/112014
Hixson, R. S., La Lone, B. M., Staska, M. D., Stevens, G. D., Turley, W. D., Veeser, L. R. (2021) Temperature measurements in cerium shocked from 8.4 to 23.5 GPa. Journal of Applied Physics, 129 (15) 155106pp. doi:10.1063/5.0043096
Seifter, A., Furlanetto, M. R., Grover, M., Holtkamp, D. B., Macrum, G. S., Obst, A. W., Payton, J. R., Stone, J. B., Stevens, G. D., Swift, D. C., Tabaka, L. J., Turley, W. D., Veeser, L. R. (2009) Use of IR pyrometry to measure free-surface temperatures of partially melted tin as a function of shock pressure. Journal of Applied Physics, 105 (12). 123526pp. doi:10.1063/1.3153973
Stevens, G. D., Lutz, S. S., Marshall, B. R., Turley, W. D., Veeser, L. R., Furlanetto, M. R., Hixson, R. S., Holtkamp, D. B., Jensen, B. J., Rigg, P. A., Wilke, M. D. (2008) Free-surface optical scattering as an indicator of the shock-induced solid-liquid phase transition in tin. Journal of Applied Physics, 104 (1). 13525pp. doi:10.1063/1.2953092
 
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