Search Results - "Waganaar, W.J."

Ion beam and plasma technology development for surface modification at Los Alamos National Laboratory by Davis, H.A., Wood, B.P., Munson, C.P., Bitteker, L.J., Nastasi, M.A., Rej, D.J., Waganaar, W.J., Walter, K.C., Coates, D.M., Schleinitz, H.M.

“…We are developing two high-throughput technologies for materials modification. The first is a repetitive intense ion beam source for materials modification…”
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High-density field-reversed configuration plasma for magnetized target fusion by Shouyin Zhang, Wurden, G.A., Intrator, T.P., Ruden, E.L., Waganaar, W.J., Grabowski, C.T., Renneke, R.M., Degnan, J.H.

“…Field reversed theta pinch technology is employed with programmed cusp fields at the theta coil ends to form high-density field-reversed configuration (FRC)…”
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A high-density field reversed configuration plasma for magnetized target fusion by Intrator, T.P., Park, J.Y., Degnan, J.H., Furno, I., Grabowski, C., Hsu, S.C., Ruden, E.L., Sanchez, P.G., Taccetti, J.M., Tuszewski, M., Waganaar, W.J., Wurden, G.A., Zhang, S.Y., Zhehui Wang

“…We describe a program to demonstrate the scientific basis of magnetized target fusion (MTF). MTF is a potentially low-cost path to fusion which is intermediate…”
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Cratering behavior in single- and poly-crystalline copper irradiated by an intense pulsed ion beam by Wood, B.P, Perry, A.J, Bitteker, L.J, Waganaar, W.J

“…When treated with intense pulsed ion beams (IPIB), many materials exhibit increased wear resistance, fatigue life, and hardness. However, this treatment often…”
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Overview of FRC translatin experimental collaboration for magnetized target fusion by Intrator, T.P., Sieck, P.E., Wurden, G.A., Waganaar, W.J., Sun, X., Degnan, J.H., Ruden, E.L., Domonkos, M., Adamson, P., Grabowski, C., Gale, D.G., Frese, M.H., Frese, S.D., Camacho, J.F., Coffey, S.K., Roderick, N.F., Amdahl, D.J., Parks, P., Siemon, R.E., Awe, T., Lynn, A.G., Gilmore, M.

“…Summary form only given. We present and overview the experimental high density Field Reversed Configurationi (FRC) approach for application to a physics…”
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Experiments on field reversed configuration (FRC) formation and their compression using liners by Degnan, J.H., Adamson, P., Amdahl, D.J., Delaney, R., Domonkos, M., Gruen, G., Lehr, F.M., Ruden, E.L., Tucker, W., Grabowski, C., Beach, J., Brown, D., Gale, D., Parker, J., Ralph, D., Sommars, W., Frese, M.H., Frese, S.D., Camacho, J.F., Coffey, S.K., Letterio, J.D., Intrator, T.P., Wurden, G.A., Hsu, S.C., Sieck, P., Turchi, P.J., Waganaar, W.J., Siemon, R.E., Awe, T.J., Bauer, B.S., Lynn, A.G., Roderick, N.F.

“…Summary form only given. Three types of experiments developing FRC formation, injection, and compression are described: field-compression, FRC…”
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Film deposition and surface modification using intense pulsed ion beams by Meli, C. A., Grabowski, K. S., Hinshelwood, D. D., Stephanakis, S. J., Rej, D. J., Waganaar, W. J.

“…High‐power pulsed ion beams have been used to ablate material for ultrahigh‐rate film deposition and to treat the surfaces of alloys. Pulsed ion beams were…”
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Intense ion beam characterization including a new method to measure beam areal energy density by Davis, H.A., Rej, D.J., Waganaar, W.J.

“…Summary form only given. An intense ion beam is being developed for materials processing research. The authors have developed a new type of imaged calorimeter…”
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Large-scale implantation and deposition research at Los Alamos National Laboratory by Wood, B.P., Henins, I., Reass, W.A., Rej, D.J., Davis, H.A., Waganaar, W.J., Muenchausen, R.E., Johnston, G.P., Schmidt, H.K.

“…This paper provides a review of research performed at two novel, large-scale ion implantation and deposition facilities developed within the High…”
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Performance of the 10-kV, 5-MA pulsed-power system for the FRX-C compression experiment by Rej, D.J., Waganaar, W.J.

“…Performance data are presented for the 10-kV, 5-MA, 1.5-MJ pulsed-power system developed for the Los Alamos magnetic fusion facility FRX-C. This system…”
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Measurement and modeling of intense ion beam target heating by Olson, J.C., Davis, H.A., Waganaar, W.J.

“…Intense ion beam heating of targets has been assessed as a function of the orientation of the target with respect to the beam. A Monte Carlo code has been used…”
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Performance of the 10-kv, 100-kA pulsed-power modules for the frx-c magnetic compression experiment by Rej, D.J., Waganaar, W.J.

“…In this paper, we present detailed performance data collected from over a year's operation of the 25 and 50 kJoule pulsed-power capacitor-bank modules/sup 1/…”
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A microsecond-pulsewidth, intense, light-ion beam accelerator by Rej, D.J., Bartsch, R.R., Davis, H.A., Greenly, J.B., Waganaar, W.J.

“…A relatively long-pulsewidth (0.1 - 1.0 μs) intense ion beam accelerator has been built for materials processing applications. An applied-B r ,…”
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Deposition Of Diamond-like Carbon Films With Intense Ion Beams by Davis, H.A., Rej, D.J., Johnston, G.P., Muenchausen, R.E., Schmidt, H.K., Tallant, D.R., Thompson, M., Waganaar, W.J., Williams, D.B.

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Design and performance of the pre-fire detection system for the FRX-L main capacitor by Waganaar, W.J., Cochrane, J.C., Hosack, K.W., Intrator, T., Sanchez, P., Taccetti, J.M., Thompson, M.C.

“…The main capacitor bank of the FRX-L (field-reversed configuration experiment) supplies current (1.6 Meg amp) to a single-turn coil that is used to create…”
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An overview of the Atlas pulsed-power systems by Parsons, W.M., Ballard, E.O., Barr, G.W., Bowman, D.W., Cochrane, J.C., Davis, H.A., Elizondo, J.M., Gribble, R.F., Griego, J.R., Hicks, R.D., Hinckley, W.B., Hosack, K.W., Miller, R.B., Nielsen, K.E., Parker, J.V., Rickets, R.L., Salazar, H.R., Sanchez, P.G., Scudder, D.W., Thompson, M.C., Trainor, R.J., Valdez, G.A., Vigil, B.N., Waganaar, W.J., Watt, R.G., Wysocki, F.J.

“…Atlas is a facility designed and being constructed at Los Alamos National Laboratory (LANL) to perform high energy-density experiments in support of…”
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