首頁 > 論文 > Matter and Radiation at Extremes > 4卷 > 2期(pp:1--1)

On the design of magnetically insulated transmission lines for z-pinch loads

On the design of magnetically insulated transmission lines for z-pinch loads

  • 摘要
  • 論文信息
  • 參考文獻
  • 被引情況
  • PDF全文
分享:

摘要

Many papers have been published on the theory of magnetic insulation and the use of Zflow analysis of magnetically insulated transmission lines (MITLs). We describe herein a novel design process using the circuit code SCREAMER for a real-world MITL for z-pinch loads based on the Zflow model of magnetic insulation. In particular, we design a 15-TW, 10-MA, 100-ns double-disk transmission line using only circuit modeling tools and Zflow analysis of the MITL. Critical issues such as current loss to the anode during the setup of magnetic insulation and the transition from a non-emitting vacuum power feed to an MITL play a large role in the MITL design. This very rapid design process allows us for the first time to explore innovative MITL designs such as variable-impedance MITLs that provide a significantly lower total inductance and improved energy delivery to the load. The tedious process of modeling the final MITL design with highly resolved 2D and 3D electromagnetic particle-in-cell codes occurs as a validation step, not as part of the design process.

Abstract

Many papers have been published on the theory of magnetic insulation and the use of Zflow analysis of magnetically insulated transmission lines (MITLs). We describe herein a novel design process using the circuit code SCREAMER for a real-world MITL for z-pinch loads based on the Zflow model of magnetic insulation. In particular, we design a 15-TW, 10-MA, 100-ns double-disk transmission line using only circuit modeling tools and Zflow analysis of the MITL. Critical issues such as current loss to the anode during the setup of magnetic insulation and the transition from a non-emitting vacuum power feed to an MITL play a large role in the MITL design. This very rapid design process allows us for the first time to explore innovative MITL designs such as variable-impedance MITLs that provide a significantly lower total inductance and improved energy delivery to the load. The tedious process of modeling the final MITL design with highly resolved 2D and 3D electromagnetic particle-in-cell codes occurs as a validation step, not as part of the design process.

Newport宣傳-MKS新實驗室計劃
補充資料

DOI:10.1063/1.5089765

所屬欄目:PULSED POWER TECHNOLOGY AND HIGH POWER ELECTROMAGNETICSResearch Articles

收稿日期:2018-09-13

修改稿日期:2018-12-12

網絡出版日期:2019-06-27

作者單位    點擊查看

R. B. Spielman:Laboratory for Laser Energetics, University of Rochester, Rochester, New York 14623-1299, USA
D. B. Reisman:Laboratory for Laser Energetics, University of Rochester, Rochester, New York 14623-1299, USA

聯系人作者:R. B. Spielman

【1】R. B. Spielman, F. Long, T. H. Martin, J. W. Poukey, D. B. Seidel, W. L. Baker, G. CoopersteinR. B. Spielman, F. Long, T. H. Martin, J. W. Poukey, D. B. Seidel, W. L. Baker, G. Cooperstein et al.On the design of magnetically insulated transmission lines for z-pinch loads. (1995).

【2】R. B. Spielman, S. F. Breeze, C. Deeney, M. R. Douglas, F. Long, K. Jungwirth, J. UllschmiedR. B. Spielman, S. F. Breeze, C. Deeney, M. R. Douglas, F. Long, K. Jungwirth, J. Ullschmied et al.On the design of magnetically insulated transmission lines for z-pinch loads. (1996).

【3】R. B. Spielman, C. Deeney, G. A. Chandler, M. R. Douglas, D. L. FehlR. B. Spielman, C. Deeney, G. A. Chandler, M. R. Douglas, D. L. Fehl et al.On the design of magnetically insulated transmission lines for z-pinch loads. Bull. Am. Phys. Soc. 42, (1997).

【4】R. B. Spielman, W. A. Stygar, K. W. Struve, J. F. Seamen, M. Comyn, M. K. Craddock, M. Reiser and J. J. Thomson. On the design of magnetically insulated transmission lines for z-pinch loads. (1997).

【5】D. D. Bloomquist, R. W. Stinnett, D. H. McDaniel, J. R. Lee, A. W. Sharpe, B. H. Bernstein, P. J. TurchiD. D. Bloomquist, R. W. Stinnett, D. H. McDaniel, J. R. Lee, A. W. Sharpe, B. H. Bernstein, P. J. Turchi et al.On the design of magnetically insulated transmission lines for z-pinch loads. (1987).

【6】R. B. Spielman, R. J. Dukart, D. L. Hanson, B. A. Hammel, W. W. HsingR. B. Spielman, R. J. Dukart, D. L. Hanson, B. A. Hammel, W. W. Hsing et al.On the design of magnetically insulated transmission lines for z-pinch loads. AIP Conf. Proc. 195, (1989).

【7】D. B. Seidel, M. L. Kiefer, R. S. Coats, T. D. Pointon, J. P. QuintenzD. B. Seidel, M. L. Kiefer, R. S. Coats, T. D. Pointon, J. P. Quintenz et al.On the design of magnetically insulated transmission lines for z-pinch loads. Int. J. Mod. Phys. C. 02, (1991).

【8】T. D. Pointon, W. A. Stygar, R. B. Spielman, H. C. Ives and K. W. Struve. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Plasmas. 8, (2001).

【9】T. D. Pointon and M. E. Savage. On the design of magnetically insulated transmission lines for z-pinch loads. (2005).

【10】T. D. Pointon, W. L. Langston and M. E. Savage. On the design of magnetically insulated transmission lines for z-pinch loads. (2007).

【11】J. M. CreedonJ. M. Creedon. On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 46, (1975).

【12】J. M. CreedonJ. M. Creedon. On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 48, (1977).

【13】C. W. MendelC. W. Mendel. On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 50, (1979).

【14】C. W. Mendel, J. P. VanDevender, G. W. Kuswa, A. H. Guenther and M. Kristiansen. On the design of magnetically insulated transmission lines for z-pinch loads. (1979).

【15】J. P. VanDevender, A. H. Guenther and M. Kristiansen. On the design of magnetically insulated transmission lines for z-pinch loads. (1979).

【16】J. P. VanDevenderJ. P. VanDevender. On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 50, (1979).

【17】J. P. VanDevender, J. T. Crow, B. G. Epstein, D. H. McDaniel, C. W. MendelJ. P. VanDevender, J. T. Crow, B. G. Epstein, D. H. McDaniel, C. W. Mendel et al.On the design of magnetically insulated transmission lines for z-pinch loads. Physica B+C. 104, (1981).

【18】C. W. Mendel, D. B. Seidel and S. E. Rosenthal. On the design of magnetically insulated transmission lines for z-pinch loads. Laser Part. Beams. 1, (1983).

【19】C. W. Mendel, D. B. Seidel and S. A. Slutz. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Fluids. 26, (1984).

【20】M. S. Di CapuaM. S. Di Capua. On the design of magnetically insulated transmission lines for z-pinch loads. IEEE Trans. Plasma Sci. 11, (1983).

【21】P. A. Miller and C. W. Mendel. On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 61, (1987).

【22】S. E. RosenthalS. E. Rosenthal. On the design of magnetically insulated transmission lines for z-pinch loads. IEEE Trans. Plasma Sci. 19, (1991).

【23】C. W. Mendel, S. E. Rosenthal and D. B. Seidel. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Rev. A. 45, (1992).

【24】C. W. Mendel, M. E. Savage, D. M. Zagar, W. W. Simpson, T. W. GrasserC. W. Mendel, M. E. Savage, D. M. Zagar, W. W. Simpson, T. W. Grasser et al.On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 71, (1992).

【25】C. W. Mendel and . On the design of magnetically insulated transmission lines for z-pinch loads. (1995).

【26】C. W. Mendel and S. E. Rosenthal. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Plasma. 2, (1995).

【27】C. W. Mendel and S. E. Rosenthal. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Plasma. 3, (1996).

【28】C. W. Mendel and D. B. Seidel. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Plasma. 6, (1999).

【29】P. F. Ottinger and J. W. Schumer. On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Plasma. 13, (2006).

【30】W. A. Stygar, T. C. Wagoner, H. C. Ives, P. A. Corcoran, M. E. CuneoW. A. Stygar, T. C. Wagoner, H. C. Ives, P. A. Corcoran, M. E. Cuneo et al.On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Rev. Spec. Top.--Accel. Beams. 9, (2006).

【31】P. F. Ottinger, J. W. Schumer, D. D. Hinshelwood and R. J. Allen. On the design of magnetically insulated transmission lines for z-pinch loads. IEEE Trans. Plasma Sci. 36, (2008).

【32】P. F. Ottinger, J. W. Schumer, D. D. Hinshelwood, R. J. Allen and R. D. Curry. On the design of magnetically insulated transmission lines for z-pinch loads. (2009).

【33】M. L. Kiefer, M. M. Widner, P. J. Turchi and M. F. Rose. On the design of magnetically insulated transmission lines for z-pinch loads. (1985).

【34】R. B. Spielman and Y. Gryazin. On the design of magnetically insulated transmission lines for z-pinch loads. (2015).

【35】W. A. Stygar, P. A. Corcoran, H. C. Ives, R. B. Spielman, J. W. DouglasW. A. Stygar, P. A. Corcoran, H. C. Ives, R. B. Spielman, J. W. Douglas et al.On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Rev. Spec. Top.--Accel. Beams. 12, (2009).

【36】M. Savage, J. Martin, T. Pointon, C. Mendel, D. JacksonM. Savage, J. Martin, T. Pointon, C. Mendel, D. Jackson et al.On the design of magnetically insulated transmission lines for z-pinch loads. (2008).

【37】J. P. VanDevender, T. D. Pointon, D. B. Seidel, K. W. Struve, C. JenningsJ. P. VanDevender, T. D. Pointon, D. B. Seidel, K. W. Struve, C. Jennings et al.On the design of magnetically insulated transmission lines for z-pinch loads. Phys. Rev. Spec. Top.--Accel. Beams. 18, (2015).

【38】R. B. Spielman, D. H. Froula, G. Brent, E. M. Campbell, D. B. ReismanR. B. Spielman, D. H. Froula, G. Brent, E. M. Campbell, D. B. Reisman et al.On the design of magnetically insulated transmission lines for z-pinch loads. Matter Radiat. Extremes. 2, (2017).

【39】T. W. L. Sanford, J. A. Halbleib, J. W. Poukey, A. L. Pregenzer, R. C. PateT. W. L. Sanford, J. A. Halbleib, J. W. Poukey, A. L. Pregenzer, R. C. Pate et al.On the design of magnetically insulated transmission lines for z-pinch loads. J. Appl. Phys. 66, (1989).

【40】B. C. Franke, R. P. Kensek and T. W. Laub. On the design of magnetically insulated transmission lines for z-pinch loads. (2005).

引用該論文

R. B. Spielman, D. B. Reisman. On the design of magnetically insulated transmission lines for z-pinch loads[J]. Matter and Radiation at Extremes, 2019, 4(2): 5089765

R. B. Spielman, D. B. Reisman. On the design of magnetically insulated transmission lines for z-pinch loads[J]. Matter and Radiation at Extremes, 2019, 4(2): 5089765

您的瀏覽器不支持PDF插件,請使用最新的(Chrome/Fire Fox等)瀏覽器.或者您還可以點擊此處下載該論文PDF

在线看黄av免费