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Funnel cone for focusing intense ion beams on a target

Published online by Cambridge University Press:  14 April 2010

F.M. Bieniosek*
Affiliation:
Lawrence Berkeley National Laboratory and Heavy Ion Fusion Science Virtual National Laboratory, Berkeley, California
E. Henestroza
Affiliation:
Lawrence Berkeley National Laboratory and Heavy Ion Fusion Science Virtual National Laboratory, Berkeley, California
P. Ni
Affiliation:
Lawrence Berkeley National Laboratory and Heavy Ion Fusion Science Virtual National Laboratory, Berkeley, California
*
Address correspondence and reprint requests to: F.M. Bieniosek, Lawrence Berkeley National Laboratory and Heavy Ion Fusion Science Virtual National Laboratory, 1 Cyclotron Road, Berkeley, CA 94720. E-mail: [email protected]

Abstract

We describe a funnel cone for concentrating an ion beam on a target. The cone utilizes the reflection characteristic of ion beams on solid walls to focus the incident beam and increase beam intensity on target. The cone has been modeled with the TRIM code. A prototype has been tested and installed for use in the 350-keV K+ NDCX target chamber.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2010

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References

REFERENCES

Barnard, J.J., et al. (2005). Accelerator and ion beam tradeoffs for studies of warm dense matter. Proc. 2005 Particle Accelerator Conference. Knoxville, TN: IEEE.Google Scholar
Bieniosek, F.M., Eylon, S., Faltens, A., Friedman, A., Kwan, J.W., Leitner, M.A., Molvik, A.W., Prost, L., Roy, P.K., Seidl, P.A. & Westenskow, G. (2005). Diagnostics for intense heavy-ion beams in the HIF-VNL. NIM A 544, 268276.CrossRefGoogle Scholar
Bieniosek, F.M., Henestroza, E., Leitner, M., Logan, B.G., More, R.M., Roy, P.K., Ni, P., Seidl, P.A., Waldron, W.L. & Barnard, J.J. (2009). High energy density physics experiments with intense heavy ion beams. Nucl. Instrum. Meth. A 606, 146151.CrossRefGoogle Scholar
Chen, H., Downing, R.G., Mildner, D.F.R., Gibson, W.M., Kumakhov, M.A., Ponomarev, Yu.I. & Gubarev, M.V. (1992). Guiding and focusing neutron beams using capillary optics. Nat. 357, 391393.CrossRefGoogle Scholar
Johzaki, T., Sakagami, H., Nagatomo, H. & Mima, K. (2007). Holistic simulation for FIREX project with FI3. Laser Part. Beams 25, 621629.CrossRefGoogle Scholar
Mashkova, E.S. & Molchanov, V.A. (1985). Medium-Energy Ion Reflection from Solids, Modern Problems in Condensed Matter Sciences. New York: North Holland Physics Publishing.Google Scholar
Molvik, A.W., Kireeff Covo, M., Bieniosek, F.M., Prost, L., Seidl, P.A., Baca, D., Coorey, A. & Sakumi, A. (2004). Gas desorption and electron emission from 1-MeV potassium ion bombardment of stainless steel. Phys. Rev. Spec. Top. Acc. Beams 7, 093202.CrossRefGoogle Scholar
Nakamura, T., Mima, K., Sakagami, H., Johzaki, T. & Nagatomo, H. (2008). Generation and confinement of high energy electrons generated by irradiation of ultra-intense short laser pulses onto cone targets. Laser Part Beams 26, 207212.CrossRefGoogle Scholar
Nakamura, T., Sakagami, H., Johzaki, T., Nagatomo, H. & Mima, K. (2006). Generation and transport of fast electrons inside cone targets irradiated by intense laser pulses. Laser Part Beams 24, 58.CrossRefGoogle Scholar
Neff, S., Knobloch, R., Hoffmann, D., Tauschwitz, A. & Yu, S.S. (2006). Transport of heavy-ion beams in a 1 m free-standing plasma channel. Laser Part Beams 24, 7180.CrossRefGoogle Scholar
Nebiki, T., Yamamoto, T., Narusawa, T., Breese, M.B.H., Teo, E.J. & Watt, F. (2003). Focusing of ion beams by means of tapered glass capillary optics. J. Vac. Sci. Technol. A 21, 16711674.CrossRefGoogle Scholar
Ni, P.A., Kulish, M.I., Mintsev, V., Nikolaev, D.N., Ternovoi, V.Y., Hoffmann, D.H.H., Udrea, S., Hug, A., Tahir, N.A. & Varentsov, D. (2008). Temperature measurement of warm-dense-matter generated by intense heavy-ion beams. Laser Part Beams 26, 583589.CrossRefGoogle Scholar
Niemann, C., Neff, S., Tauschwitz, A., Penache, D., Birkner, R., Constantin, C., Knobloch, R., Presura, R., Rosmej, F.B., Hoffmann, D.H.H. & Yu, S.S. (2003). Laser-guided, intersecting discharge channels for the final beam transport in heavy-ion fusion. J. Appl. Phys. 93, 94709476.CrossRefGoogle Scholar
Seidl, P.A., Anders, A., Bieniosek, F.M., Barnard, J.J., Calanog, J., Chen, A.X., Cohen, R.H., Coleman, J.E., Dorf, M., Gilson, E.P., Grote, D. P., Jung, J.Y., Leitner, M., Lidia, S.M., Logan, B.G., Ni, P., Roy, P.K., van den Bogert, K., Waldron, W.L. & Welch, D.R. (2009). Progress in beam focusing and compression for warm-dense-matter experiments. Nucl. Instrum. Meth. A 606, 7582.CrossRefGoogle Scholar
Tabak, M., Clark, D.S., Hatchett, S.P., Key, M.H., Lasinski, B.F., Snavely, R.A., Wilks, S.C., Town, R.P.J., Stephens, R., Campbell, E.M., Kodama, R., Mima, K., Tanaka, K.A., Atzeni, S. & Freeman, R. (2005). Review of progress in fast ignition. Phys. Plasmas 12, 5.CrossRefGoogle Scholar
van Kan, J.A. & Vis, R.D. (1996). Glancing incident MeV ion beams for total reflection PIXE (TPIXE) and RBS surface analysis. Nucl. Instrum. Meth. B 113, 373377.CrossRefGoogle Scholar
Verma, U. & Sharma, A.K. (2009). Effect of self focusing on the prolongation of laser produced plasma channel. Laser Part Beams 27, 3339.CrossRefGoogle Scholar
Westenskow, G.A., Kwan, J.W., Grote, D.P. & Bieniosek, F.M. (2007). High brightness heavy-ion injector experiments. Nucl. Instrum. Meth. A 577, 168172.CrossRefGoogle Scholar
Yu, W., Cao, L., Yu, M.Y., Cai, H., Xu, H., Yang, X., Lei, A., Tanaka, K.A. & Kodama, R. (2009). Plasma channeling by multiple short-pulse lasers. Laser Part Beams 27, 109114.CrossRefGoogle Scholar
Ziegler, J.F. (2008). SRIM and TRIM. www.srim.org.Google Scholar