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High field magnetic confinement of fusion plasmas

  • D. Bruce Montgomery
Chapter
Part of the Topics in Applied Physics book series (TAP, volume 57)

Keywords

Pulse Time Ohmic Heating Poloidal Field Fusion Research Fusion Plasma 
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References

  1. 5.1
    Proc. 5th Symp. on Engineering Problems of Fusion Research, Princeton, NJ (1973) IEEE Pub. No. 73CH0843-3-NPSGoogle Scholar
  2. 5.2
    Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPSGoogle Scholar
  3. 5.3
    M.S.Lubell, C.Whitmire, Jr. (eds): Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CH1267-4-NPSGoogle Scholar
  4. 5.4
    C.K.McGregor, T.H.Batzer (eds): Proc. 8th Symp. on Engineering Problems of Fusion Research, 4 Vol., San Francisco, CA (1979) IEEE Pub. No. 79CH1441-5-NPSGoogle Scholar
  5. 5.5
    U.S. Department of Energy, Office of Fusion Energy, Office of Energy Research, Status of Tokamak Research, DOE/ER-0034, National Technical Information Service, Springfield, VA (October 1979)Google Scholar
  6. 5.6
    U.S. Department of Energy, Office of Fusion Energy, An Evaluation of Alternate Magnetic Fusion Concepts 1977. DOE/ER-0047, National Technical Information Service, Springfield, VA (May 1978)Google Scholar
  7. 5.7
    D.R.Cohn, J.H.Schultz: High Field Compact Tokamak Reactor (HFCTR), Conceptual Design, MIT, Plasma Fusion Center Research Report RR79-2, Cambridge, MA (January 1979)Google Scholar
  8. 5.8
    W.M.Stacey: Fusion Reactor Development: A Review, Adv. Nuclear Sci. Techn.15,,129 (1981)Google Scholar
  9. 5.9
    S.Fairfax: Alcator Group, Energy and Particle Confinement in the Alcator Tokamaks, Proc. 8th International Conference on Plasma Physics and Controlled Nuclear Fusion Research, International Atomic Energy Agency, IAEA-CN-38/N-6, Brussels (July 1980)Google Scholar
  10. 5.10
    L.Anzidei, L.Lovisetto, G.Malavasi: Structural Analysis of a Toroidal Magnet for a High Field Poloidal Tokamak, [translated from Italian by Kyra Hall, PFC November 1979], EURATOM-CNEN Association on Fusion, Frascati, Italy (April 1979)Google Scholar
  11. 5.11
    L.De Menna, G.Rubinacci, F.Esposito: Structural Analysis of a Compact Toroidal Ignition Experiment, Proc. 8th Symp. on Engineering Problems of Fusion Research, 4 Vols., San Francisco, CA (1979) IEEE Pub. No. 79CH1441-5-NPS, p. 1479Google Scholar
  12. 5.12
    C.Weggel, W.Hamburger, B.Montgomery, N.Pierce: The Alcator C Magnetic Coil System, Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CH1267-4-NPS, p. 54Google Scholar
  13. 5.13
    U.Brossman, J.E.Gruber, W.Hamburger, O.Jandl, M.Soll, B.Streibl: Tape-WoundToroidal (TF) Magnet for ZEPHYR, IPP-Report No. IPP 1/176, EURATOM Association, Garching, Germany (November 1979)Google Scholar
  14. 5.14
    H.Becker, L.Bromberg, D.Cohn, J.Lettvin, J.E.C.Williams: Engineering Design Considerations for Compact Ignition Test Reactors, Proc. 8th Symp. on Engineering Problems of Fusion Research, 4 Vols., San Francisco, CA (1979) IEEE Pub. No. 79CH1441-5-NPS, p. 1097Google Scholar
  15. 5.15
    D. B. Montgomery: The Alcator Project, Colloques Intern. C. N. R. S., No. 242-Physique Sous Champs Magnétiques Intenses, Grenoble (1974)Google Scholar
  16. 5.16
    R. W. Call is, H. J. Varga, J. C. Wesley: Toroidal and Ohmic Heating Power Supplies for Doublet III, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 458Google Scholar
  17. 5.17
    C.E.Swannack, R.A.Haarman, J.D.Lindsay, D.M.Weldom: HVDC Interrupter Experiments for Large Magnetic Energy Transfer and Storage (METS) Systems, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH10975-NPS, p. 662Google Scholar
  18. 5.18
    W.M.Parsons, R.W.Warren, E.M.Hoenig, J.D.Lindsay, P.Bellamo, R.L.Cassel: Interrupter and Hybrid-Switch Testing for Fusion Devices, Proc. 8th Symp. on Engineering Problems of Fusion Research, 4 Vols., San Francisco, CA (1979) IEEE Pub. No. 79CH1441-5-NPS, p. 689Google Scholar
  19. 5.19
    C.F.Weggel: A New Ultra-High-Strength Laminated Electrical Conductor, Adv. Cryogenic Engineering 25, Madison, WI (1980)Google Scholar
  20. 5.20
    L.Anzidei, L.Bettinali, G.Celentano, G.B.Malavasi, G.B.Righetti, B.Rumi, E.Salpietro, R.Toschi: Technological Aspects of the Cryogenic Magnet for the Frascati Tokamak, Proc. 5th Symp. on Engineering Problems of Fusion Research, Princeton, NJ (1973) IEEE Pub. No. 73CH0843-3-NPS, p. 337Google Scholar
  21. 5.21
    H.M.Long, J.N.Luton: Cryogenic Engineering for Ormak, Proc. 5th Symp. on Engineering Problems of Fusion Research, Princeton NJ (1973) IEEE Pub. No. 73CH0843-3-NPS, p. 380Google Scholar
  22. 5.22
    K.M.Plummer, D.V.Bayes, D.Bell, J.Burt, F.Galloway, B.C.Sanders, D.E.Skelton, G.L.Varley: ] The Engineering of the “Divertor Injection Tokamak Experiment” (DITE), Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 361Google Scholar
  23. 5.23
    D.B.Montgomery, N.T.Pierce: The Alcator Liquid Nitrogen-Cooled Tokamaks, in Applicalions of Cryogenic Technology, 7, ed. by J.R.Missig and R.W.Vance, Scholium International, Inc., 1978Google Scholar
  24. 5.24
    Yu.A.Alekseev, A.M.Andrianov, V.L.Baryshev, V.I.Vasilev, V.F.Demichev, M.N.Kazeev, V.V.Kisula: Toroidal Magnetic Trap With Longitudinal Field of 200 kOe, Kurchatov Institute of Atomic Energy, Moscow (1976) [translation from Russian, B.Bialocki, 1977]Google Scholar
  25. 5.25
    Triam-Project, Plasma Physics Group, Research Institute for Applied Mechanics, Kyushu University, Japan (1978)Google Scholar
  26. 5.26
    S.Glasstone, R.H.Lovberg: Controlled Thermonuclear Reactions, Robert E. Krieger Publishing Company, Huntington, NY (1975)Google Scholar
  27. 5.27
    D.B.Montgomery, R.J.Weggel: Solenoid Magnet Design, Robert E. Krieger Publishing Company, Huntington, NY (1980)Google Scholar
  28. 5.28
    An Engineering Design Study of A Reference Theta-Pinch Reactor (RTPR), Los Alamos Scientific Laboratory Report 5336, Argonne National Laboratory Report 8019Google Scholar
  29. 5.29
    Mathematical Sciences Northwest, Inc., A Feasibility Study of a Linear Laser-Heated Solenoid Fusion Reactor, EPRI ER-171 (1976) L.C.Steinhauer: Conceptual Fusion Reactor Designs Based on the Laser Heated Solenoid, Proc. 7th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 979Google Scholar
  30. 5.30
    P.G.Marston, J.J.Nolan, R.J.Averill: The Magnet System for a Laser Heated Solenoid Fusion Reactor, Proc. 7th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 1123Google Scholar
  31. 5.31
    A. H. Bohr, F. W.Kloiber, K. B.Silverman: Design of a 125 Kilogauss One Meter Magnet Coil, Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CH1267-4-NPS, p. 837Google Scholar
  32. 5.32
    P.Bonanos: Mechanical Design of a 250 Kilogauss Solenoidal Magnet, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH 10975-NPS, p. 1127Google Scholar
  33. 5.33
    T.E.DeHart, J.F.Zumdieck, A.L.Hoffman, D.D.Lowenthal, E.A.Crawford, B.Perry: The Laser Heated Solenoid Proof-of-Concept Experiment (PCX) Facility, Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CHI267-4NPS, p. 1619Google Scholar
  34. 5.34
    P.H.Rose, L.C.Steinhauer, R.T.Taussig: Fusion Reactor Development Scenarios for the Laser Solenoid Concept, Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CH1267-4-NPS, p. 609Google Scholar
  35. 5.35
    W.E.Quinn: Linear Theta-Pinch Experiments, Proc. of the High Beta Workshop, ERDA76/108, Los Alamos, NM (1975)Google Scholar
  36. 5.36
    A.C.Kolb, H.R.Griem, W.H.Lupton, D.T.Phillips, S.A.Ramsden, E.A.McLean, W.R.Faust, M.Swartz: Nuclear Fusion-Suppl. Part 2 (1962) p. 553Google Scholar
  37. 5.37
    A.D.Beach, A.B.Bodin, C.A.Bunting, D.J.Dancy, G.C.H.Heywood, M.R.Kenward, J. McCartan, A.A.Newton, I.K.Pasco, R.Peacock, J.L.Watson: Nuclear Fusion 9, 215–222 (1969)Google Scholar
  38. 5.38
    E. Fünfer: Proc. 6th European Conference on Contr. Fusion and Plasma Phys., Moscow (1973) p. 109Google Scholar
  39. 5.39
    A.G.Bailey, M.D.Machalek: Scylla IV-P Linear Theta Pinch, A Design and Construction Overlook, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 387Google Scholar
  40. 5.40
    L.D.Hansborough, C.F.Hammer, K.W.Hanks, T.E.McDonald, W.C.Nunnally: Engineering Prototypes for Theta-Pinch Devices, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 391Google Scholar
  41. 5.41
    K.W.Hanks, G.P.Boicourt, A.G.Bailey: 250-kG Mirror Coil Development for the Linear Scyllac Experiment, Proc. 5th Symp. on Engineering Problems of Fusion Research, Princeton, NJ (1973) IEEE Pub. No. 73CH0843-3-NPS, p. 314Google Scholar
  42. 5.42
    W.H.Borkenhagen, W.R.Ellis, H.W.Harris, E.L.Zimmerman: Auxiliary Coil System for Scyllac, LA 4815-MS, LASL, Los Alamos, NM (1971)Google Scholar
  43. 5.43
    C.F.Hammer, R.S.Dike, W.C.Nunnally: Engineering Description of the LASL ZT-40 Toroidal Z-Pinch, Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CH1267-4-NPS, p. 655Google Scholar
  44. 5.44
    T.E.James, H.A.B.Bodin, S.Skellett: Some Design Aspects of a Large Reverse Field Pinch Experiment, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 383Google Scholar
  45. 5.45
    P.J.Turchi, A. E.Robson: Electromagnetic Implosion of Large Diameter Liners, Pulsed High Beta Plasmas, Plasma Physics, ed. by D.E.Evans (Pergamon Press 1975)Google Scholar
  46. 5.46
    D.L.Book: NRL Group, SAI Group, LASL Group, Experimental and Theoretical Liner Fusion Studies at NRL, SAI and LASL, NRL Memorandum Report 3826, Washington, D.C. (1978)Google Scholar
  47. 5.47
    P.J.Turchi, A.E.Robson: Conceptual Design of Imploding Liner Fusion Reactors, Proc. 6th Symp. on Engineering Problems of Fusion Research, San Diego, CA (1975) IEEE Pub. No. 75CH1097-5-NPS, p. 983Google Scholar
  48. 5.48
    T. H.Batzer: The Technology of Mirror Machines-LLL Facilities for Magnetic Mirror Fusion Experiments, Proc. 7th Symp. on Engineering Problems of Fusion Research, Knoxville, TN (1977) IEEE Pub. No. 77CH1267-4-NPS, p. 2Google Scholar
  49. 5.49
    A.L.Boch: Oak Ridge National Laboratory Report ORNL/TM-7191 (1980)Google Scholar
  50. 5.50
    C.D.Henning, A.J.Hodges, J.H.Van Sant, R.E.Hinkle, J.A.Horvath, R.E.Heintz, E.Dalder, R.Baldi, R.Tatro: Mirror Fusion Test Facility Magnet, Proc. 8th Symp. on Engineering Problems of Fusion Research, 4 Vols., San Francisco, CA (1979) IEEE Pub. No. 79CH1441-5-NPS, p. 739Google Scholar
  51. 5.51
    T.F.Yang, A.V.Lee, G.W.Ruck, T.Prevenslik, G.S.Meltzer: Design of an Advanced Bundle Divertor for the Demonstration Tokamak Hybrid Reactors, Proc. 8th Symp. on Engineering Problems, of Fusion Research 4 Vols., San Francisco, CA (1979) IEEE Pub. No. 79CH1441-5-NPS, p. 615.Google Scholar

Copyright information

© Springer-Verlag 1985

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  • D. Bruce Montgomery

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