Effect of target-emitted ions on the focal spot of an intense electron beam

Dale R. Welch; Thomas P. Hughes

doi:10.1017/S0263034600011617

Abstract

Intense electron beams are known to produce surface plasmas when they strike typical target materials. The beam space charge then draws an ion current that can substantially affect the beam dynamics. We consider these effects for two intense-beam sources: (1) a needle-tip cathode immersed in a strong magnetic field, and (2) an induction accelerator-produced beam that is focused onto a field-free target. For the first case, the dominant effect is an electrostatic dipole instability between the beam and the ions. A sufficiently large magnetic field can keep the oscillation amplitude to a low level. For the second case, the dominant effect is that the focal length changes in time. For the “worst case” of space-charge-limited proton emission, the predicted effect is severe. The actual abundance and charge state of the target-plasma ions will need to be measured or inferred from planned experiments. Mitigation schemes also are discussed briefly.

References

REFERENCES

Burns, M.et al. 1996 In Proc. XVIII Int. LI NAC Conf., Geneva, No. LA-UR-96-2946.Google Scholar

Cuneo, M.E.et al. 1995 In Proc. 1995 IEEE Int. Conf. Plasma Science, 5–8 June, Madison, WI (Institute of Electrical, and Electronic Engineers, New York), No. 95CH35796, p. 178.Google Scholar

Godfrey, B.B. & Hughes, T.P. 1984 Phys. Fluids 28, 669.CrossRef Google Scholar

Lawson, J.D. 1978 The Physics of Charged Particle Beams (Oxford University Press, Oxford, UK), p. 194.Google Scholar

Lipinski, R.J.et al. 1990 Phys. Fluids B 2, 2764.CrossRef Google Scholar

Mazarakis, M.G.et al. 1996 Appi. Phys. Lett. 70, 832.CrossRef Google Scholar

Sanford, T.W.L.et al. 1989 J. Appi. Phys. 66, 10.CrossRef Google Scholar

Welch, D.R.et al. 1994 Phys. Plasmas 1, 764.CrossRef Google Scholar

Crossref Citations

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Vermare, C. Labrouche, J. Le Taillandier de Gabory, P. Villate, D. and Donohue, J.T. 1999. Strong self-focusing of a 7.2 MeV electron beam striking an aluminized mylar target. IEEE Transactions on Plasma Science, Vol. 27, Issue. 6, p. 1566.

Vermare, C. Donohue, J.T. Labrouche, J. Le Taillandier de Gabory, P. and Villate, D. 1999. Observation of strong self-focusing of an intense relativistic electron beam impinging on a SiO/sub 2/ target. IEEE Transactions on Plasma Science, Vol. 27, Issue. 5, p. 1501.

Yu-Jiuan Chen Bergstrom, P.M. Caporaso, G.J. Ho, D.-M. McCarrick, J.F. Pincosy, P.A. and Rambo, P.W. 1999. DARHT2 X-ray converter target system comparison. Vol. 3, Issue. , p. 1827.

Maenchen, J. Cordova, S. Gustwiller, J. Johnson, D.L. Menge, P. Molina, I. Olson, C. Rosenthal, S. Rovang, D. Oliver, O. Welch, D. Bailey, V. Smith, I. Droemer, D. Hunt, E. MacLeod, G. and Woo, L. 1999. Inductive voltage adder driven X-ray sources for hydrodynamic radiography. Vol. 1, Issue. , p. 279.

Kwan, T.J.T. and Snell, C.M. 1999. Plasma suppression and spot size stabilization in single and multiple pulse flash X-ray radiography. p. 181.

Kwan, T.J.T. Moir, M.C. and Snell, C.M. 1999. Simulations, experiments, and analysis of beam target interaction. Vol. 3, Issue. , p. 1842.

Kwan, Thomas J. T. and Snell, Charles M. 2000. Plasma and ion barrier for electron beam spot stability. Review of Scientific Instruments, Vol. 71, Issue. 3, p. 1363.

Kwan, Thomas J. T. Snell, Charles M. and Christenson, Peggy J. 2000. Electron beam–target interaction and spot size stabilization in flash x-ray radiography. Physics of Plasmas, Vol. 7, Issue. 5, p. 2215.

Kwan, T.J.T. 2000. On the delay time for the onset of radiographic spot size growth. IEEE Transactions on Plasma Science, Vol. 28, Issue. 1, p. 268.

Lemke, R.W. Luginsland, J.W. and Haworth, M.D. 2000. Evidence of a new pulse-shortening mechanism in a load-limited MILO. IEEE Transactions on Plasma Science, Vol. 28, Issue. 3, p. 511.

Haworth, M. D. Englert, T. J. Hendricks, K. J. Lemke, R. W. Luginsland, J. W. Shiffler, D. S. and Spencer, T. A. 2000. Comprehensive diagnostic suite for a magnetically insulated transmission line oscillator. Review of Scientific Instruments, Vol. 71, Issue. 3, p. 1539.

Davis, H.A. Vermare, C. Hughes, T.P. Moir, D.C. Olson, R.T. and Wood, W.M. 2001. Intense electron beam disruption due to ion release from surfaces. Vol. 5, Issue. , p. 3290.

Vermare, C. Davis, H.A. Hughes, T.P. Moir, D.C. Olson, R.T. and Wood, W.M. 2001. Intense electron beam disruption due to ion release from surfaces. p. 1685.

Rose, D. V. Welch, D. R. Oliver, B. V. Clark, R. E. Johnson, D. L. Maenchen, J. E. Menge, P. R. Olson, C. L. and Rovang, D. C. 2002. Coupled particle-in-cell and Monte Carlo transport modeling of intense radiographic sources. Journal of Applied Physics, Vol. 91, Issue. 5, p. 3328.

Rovang, D. Cordova, S. Hahn, K. Maenchen, J. Molina, I. Portillo, S. Sceiford, M. Droemer, D. Van De Valde, D. Oliver, B. Rose, D. Welch, D. and Johnson, D.L. 2003. Recent progress in the development of immersed diodes. Vol. 1, Issue. , p. 487.

Vermare, C. Davis, H. A. Moir, D. C. and Hughes, T. P. 2003. Ion emission from solid surfaces induced by intense electron beam impact. Physics of Plasmas, Vol. 10, Issue. 1, p. 277.

Ekdahl, C. Abeyta, E.O. Caudill, L. Chan, K.C.D. Dalmas, D. Eversole, S. Gallegos, R. Harrison, J. Holzscheiter, M. Johnson, J. Jacquez, E. McCuistian, B.T. Montoya, N. Nielsen, K. Oro, D. Rodriguez, L. Rodriguez, P. Sanchez, M. Schauer, M. Simmons, D. Smith, H.V. Studebaker, J. Sullivan, G. Swinney, C. Temple, R. Chen, Y.J. Houck, T. Henestroza, E. Eylon, S. Fawley, W. Yu, S.S. Bender, H. Broste, W. Carlson, C. Durtschi, G. Frayer, D. Johnson, D. Jones, K. Meidinger, A. Moy, K. Sturgess, R. Tom, C.Y. Hughes, T. and Mostrom, C. 2003. First beam at DARHT-II. p. 558.

McCarrick, J. Caporaso, G. Chambers, F. Chen, Y.-J. Falabella, S. Goldin, F. Guethlein, G. Ho, D. Richardson, R. and Weir, J. 2003. Electron beam/converter target interactions in radiographic accelerators. p. 563.

Maenchen, J. Cooperstein, G. O'Malley, J. and Smith, I. 2004. Advances in pulsed power-driven radiography systems. Proceedings of the IEEE, Vol. 92, Issue. 7, p. 1021.

Rose, D. V. Genoni, T. C. and Welch, D. R. 2004. Ion-hose instability growth and saturation for counterstreaming electron and ion beams in an applied magnetic field. Physics of Plasmas, Vol. 11, Issue. 11, p. 4990.

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Effect of target-emitted ions on the focal spot of an intense electron beam

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Effect of target-emitted ions on the focal spot of an intense electron beam

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