Search Results - "Mankofsky, A."

Long-range cross-field ion-beam propagation in the diamagnetic regime by PAPADOPOULOS, K, MANKOFSKY, A, DROBOT, A

“…It is shown that high-kinetic-beta neutralized ion beams with transverse width less than an ion gyroradius and density larger than the background plasma…”
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Global and local geospace modeling in ISTP by Papadopoulos, K., Lyon, J. G., Goodrich, C. C., Cargill, P. J., Sharma, A. S., Kulkarni, R., Chang, CL. L., Mankofsky, A.

“…The objective of the University of Maryland ISTP (International Solar Terrestrial Physics) theory project is the development of the analytical and…”
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Case study:visualization and data analysis in space and atmospheric science by Mankofsky, A, Szuszczewicz, E P, Blanchard, P, Goodrich, C, McNabb, D, Kulkarni, R, Kamins, D

“…In this paper we show how SAVS, a tool for visualization and data analysis in space and atmospheric science, can be used to quickly and easily address problems…”
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Numerical Simulation of High Power Microwave Sources by Drobot, A. T., Chang, C-L, Ko, K., Mankofsky, A., Mondelli, A., Seftor, L., Vitello, P.

“…Electromagnetic fully relativistic particle-in-cell codes represent a powerful tool for the modeling and designing of components of high power microwave…”
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Analysis of field emission from three-dimensional structures by KIRKPATRICK, D. A, MONKOFSKY, A, TSANG, K. T

“…An analysis of the field emission from emitter tips with the geometry of a prolate ellipsoid of revolution indicates that the field enhancement factor, β, and…”
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Three-dimensional simulation of helix travelling wave tubes by Freund, H.P., Zaidman, E.G., Mankofsky, A., Kodis, M.A., Vanderplaats, N.R.

“…Summary form only given. We present a three-dimensional nonlinear formulation and simulation of a helix travelling wave tube (TWT) using a sheath helix model…”
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Visualization and data analysis in space and atmospheric science by Mankofsky, A., Szuszczewicz, E.P., Blanchard, P., Goodrich, C., McNabb, D., Kulkarni, R., Kamins, D.

“…In this paper we show how SAVS, a tool for visualization and data analysis in space and atmospheric science, can be used to quickly and easily address problems…”
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Ion beam modeling using ARGUS by Petillo, J. J., Mondelli, A. A., Mankofsky, A., Chang, C. L.

“…Over the past several years, the ARGUS code has been used to simulate a variety of ion beam phenomena. ARGUS is a general purpose three-dimensional simulation…”
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Hybrid simulation of high-power ion beam transport and beam focusing through a gas chamber by Chang, C.L., Agritellis, C., Mankofsky, A., Drobot, A.T.

“…Summary form only given. The CIDER two-dimensional hybrid code has been used to simulate high-power ion beam transport and focusing in the gas cell of a light…”
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Progress in 3D particle-in-cell modeling of heavy ion beam transport in quadrupole focusing channels by Friedman, A., Mark, J.W.-K., Nielsen, D.E., Chang, C.-L., Drobot, A.T., Mankofsky, A.

“…Summary Form only given, as follows. The authors discuss the use of discrete-particle simulations to model beam transport during the pulse-compression stage of…”
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Application of the Argus code to accelerator design calculations by Mondelli, A., Chang, C., Drobot, A., Ko, K., Mankofsky, A., Petillo, J.

“…Argus is a system of three-dimensional codes which share the same utilities for structure input and grid generation, memory management, data handling, and…”
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Three-dimensional simulations for accelerator physics using ARGUS by Mondelli, A., Mankofsky, A., Petillo, J., Krueger, W., Kostas, C., Drobot, A., Ryne, R., Cooper, R.K., Rodenz, G., Browman, M.J.

“…ARGUS is a three-dimensional, electromagnetic, particle-in-cell (PIC) simulation code that uses a modular code architecture to allow multiple physics modules…”
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3-D field and particle simulations with ARGUS by Mankofsky, A., Chang, C.L., Drobot, A., Grossmann, W., Kress, M., Mondelli, A., Petillo, J., Brandon, S., Ko, K.

“…Summary form only given. The ARGUS three-dimensional simulation code has been used for a wide variety of problems which require the solution of field equations…”
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Progress in intense ion beam research for inertial confinement fusion at Cornell University by Hammer, D. A., Kusse, B. R., Maenchen, J., Mankofsky, A., Neri, J., Renk, T. J., Sudan, R. N.

“…Recent studies of time integrated and time dependent ion beam divergence using two magnetically insulated diodes at 10 10 -10 11 W show a directionality which…”
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Applications of intense pulsed ion beams to magnetically confined fusion by Busby, K. O., Dreike, P. L., Greenly, J. B., Hammer, D. A., Kusse, B. R., Lyster, P. M., Mankofsky, A., Nakagawa, Y., Sudan, R. N.

“…Intense ion beams have possible application as current-carrying elements of magnetically-confined fusion plasmas. Present results in beam propagation and ion…”
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Cornell intense ion beam program by Dreike, P. L., Eichenberger, C. B., Friedman, A., Greenspan, M. A., Hammer, D. A., Humphries, S., Lovelace, R. V. E., Maenchen, J. E., Mankofsky, A., Ott, E., Sudan, R. N., Wiley, L. G.

“…Intense ion beam research at Cornell has three major objectives: (1) to seek improvements in ion diode technology so that ion beams of high brightness can be…”
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