Alexey L. RADOVINSKY, Ph.D.

 

SELECTED PUBLICATIONS

 

(to view click on the number)

 

71. Superconducting Cyclotrons for Hadron Radiotherapy

Minervini J.; Radovinsky, A.; Winklehner D.; Michael P.; Bromberg L.;

IEEE Transactions on Applied Superconductivity,

Volume: 28 , Issue: 4, June 2018

 

70. Compact counter-flow cooling system with subcooled gravity-fed circulating liquid nitrogen

Ivanov Yu.; Radovinsky A.; Zhukovsky A.; Sasaki A.; Watanabe H.; Kawahara T.; Hamabe M.; Yamaguchi S.;

Physica C,

470 (2010)

 

69. A COMPACT COOLING SYSTEM FOR HTS POWER CABLE BASED ON THERMAL SIPHON FOR CIRCULATION OF LN2

Ivanov Yu.; Radovinsky A.; Zhukovsky A.; Sasaki A.; Watanabe H.; Kawahara T.; Yamaguchi S.;

AIP Conference Proceedings 1218, 865 (2010);

doi: 10.1063/1.3422441

 

68. Design of a Superconducting Magnet for the LNS Cyclotron

Radovinsky, A.; Calabretta L.; Minervini J.; Zhukovsky P.; Michael P.; Calanna A.;

IEEE Transactions on Applied Superconductivity,

Volume: 26 , Issue: 4, June 2016

 

67. Constant Field Toroidal SMES Magnet

Radovinsky, A.L.; Bromberg L.; Minervini J.V.; Michael P.C.; Servais V.; Forton E.; Pearson E.;

IEEE Transactions on Applied Superconductivity,

Volume: 26 , Issue: 3, April 2016

 

66. Cold head maintenance with minimal service interruption

Radovinsky, A.L.; Michael P.C.; Zhukovsky A.; Forton E.; Paradis Y.; Nuttens, V.; Minervini, J.V.;

IOP Conf. Series: Materials Science and Engineering 101 (2015),

doi:10.1088/1757-899X/101/1/012181

 

65. Variable Energy Acceleration in a Single Iron-Free Synchrocyclotron

Radovinsky, A.L.; Minervini, J.V.; Michael P.C.; Bromberg, L.; Miller, C.E. ;

PSFC MIT Report, PSFC/RR-13-9,

September 5, 2013

 

64. Superconducting Magnets for Ultra Light and Magnetically Shielded, Compact Cyclotrons for Medical, Scientific, and Security Applications

Radovinsky, A. ;Minervini, J. ; Miller, C. ; Bromberg, L. ; Michael, P. ; Maggiore, M. ;

IEEE Transactions on Applied Superconductivity,

Volume: 24 , Issue: 3, June 2014

 

63. ITER CS Quench Detection System and its Qualification by Numerical Modeling

Martovetsky, N. ; Radovinsky, A. ;

IEEE Transactions on Applied Superconductivity,

Volume: 24 , Issue: 3, June 2014

 

62. Engineering Study of the Sector Magnet for the Dae \delta alus Experiment

Radovinsky, A. ; Smith, B. ; Miller, C.E. ; Minervini, J.V. ; Cheadle, M. ; Calabretta, L. ; Alonso, J. ; Conrad, J. ; Calanna, A. ; Barletta, W. ;

IEEE Transactions on Applied Superconductivity,

Volume: 24 , Issue: 3, June 2014

 

61. Structural Analyses of the Cold Mass for High Field Dusty Plasma Experiment

Miller, C.E. ; Radovinsky, A. ; Pourrahimi, S. ;

IEEE Transactions on Applied Superconductivity,

Volume: 24 , Issue: 3, June 2014

 

60. Test of a Conduction-Cooled, Prototype, Superconducting Magnet for a Compact Cyclotron

Michael, P.C. ; Antaya, T.A. ; Radovinsky, A. ; Smith, B.A. ; Pourrahimi, S. ;

IEEE Transactions on Applied Superconductivity,

Volume: 23 , Issue: 3 , Part: 2, June 2013

 

59. Conceptual Design of the JLab Hall D Replacement Solenoid

Smith, B. ; Miller, C.E. ; Radovinsky, A. ; Zhukovsky, A. ; Gazaille, R. ;

IEEE Transactions on Applied Superconductivity,

Volume: 23 , Issue: 3 , Part: 2, June 2013

 

58. Structural Analyses of the JLab Hall D Replacement Solenoid

Miller, C.E. ; Radovinsky, A.;

IEEE Transactions on Applied Superconductivity,

Volume: 23 , Issue: 3 , Part: 2, June 2013

 

57. Quench Detection for the Levitated Dipole Experiment (LDX) Charging Coil

Michael, P.C.; Garnier, D.T.; Radovinsky, A.; Rodin, I.; Ivkin, V.; Mauel, M.E.; Korsunsky, V.; Egorov, S.; Zhukovsky, A.; Kesner, J.;

IEEE Transactions on Applied Superconductivity,

Volume 17, Issue 2, Part 2, June 2007 Page(s):2482 - 2485

 

56. Cryogenic Fluid Dynamics for DC Superconducting Power Transmission Line

Sasaki, A.; Hamabe, M.; Famakinwa, T.; Yamaguchi, S.; Radovinsky, A.; Okumura, H.; Emoto, M.; Toyota, T.;

IEEE Transactions on Applied Superconductivity,

Volume 17, Issue 2, Part 2, June 2007 Page(s):1748 - 1751

 

55. Tolerances and Uncertainties Versus Magnetic Performance in MECO Magnet System

Radovinsky, A.L.; Smith, B.A.; Molzon, W.R.; Titus, P.H.; Salvetti, M.; Fishman, V.; Chen, C.; Guillochen, J.;

IEEE Transactions on Applied Superconductivity,

Volume 16, Issue 2, June 2006 Page(s):473 - 476

 

54. Design and initial operation of the LDX facility

D.T. Garnier; A.K. Hansen; J. Kesner; M.E. Mauel; P.C. Michael; J.V. Minervini; A. Radovinsky; A. Zhukovsky; A. Boxer; J.L. Ellsworth; I. Karim; E.E. Ortiz;

Fusion Engineering and Design

Volume 81, 2006, 2371–2380

 

53. Superconducting magnet and conductor research activities in the US fusion program

P.C. Michael; J.H. Schultz; T.A. Antaya; R. Ballinger; L. Chiesa; J. Feng; C.-Y. Gung; D. Harris; J.-H. Kim; P. Lee; N. Martovetsky; J.V. Minervini; A. Radovinsky; M. Salvetti; M. Takayasu; P. Titus;

Fusion Engineering and Design

Volume 81, 2006, 2381–2388

 

52. Thermal Performance of the LDX Floating Coil

Zhukovsky, A.; Garnier, D.T; Radovinsky; A.;

Cryogenic Engineering Conference 2005, Keystone, Colorado,

Advances in Cryogenic Engineering, Volume 51, 2006 Page(s) 78 - 85

 

51. The ITER Central Solenoid

Schultz, J.H.; Antaya, T.; Feng, J.; Gung, C.-Yu.; Martovetsky, N.; Minervini, J.V.; Michael, P.; Radovinsky, A.; Titus, P.;

Twenty-First IEEE/NPS Symposium on Fusion Engineering 2005,

Sept. 2005 Page(s):1 - 4

 

50. First integrated test of the superconducting magnet systems for the Levitated Dipole Experiment (LDX)

Zhukovsky, A.; Minervini, J.; Michael, P. C.; Schultz, J.H.; Smith, B.A.; Kesner, J.; Radovinsky, A.; Garnier, D. ; Mauel, M.;

Proceedings of the 23rd Symposium of Fusion Technology - SOFT 23

Fusion Engineering and Design

Volumes 75-79, November 2005, Pages 29-32

 

49. Three-Dimensional Design of a Non-Axisymmetric Periodic Permanent Magnet Focusing System

Chiping Chen; Bhatt, R.; Radovinsky, A.; Jing Zhou;

Proceedings of the Particle Accelerator Conference, 2005. PAC 2005.

16-20 May 2005 Page(s):1964 – 1966

 

48. Dynamic Modeling and Control of the Magplane Vehicle

Radovinsky, A.; Fang, J.; Montgomery, D. B.;

2004, Maglev’2004, Shanghai, China: 935-941.

 

47. Performance of Conduction Cooled LDX Levitation Coil

Michael, P.C.; Schultz, J.H.; Smith, B.; Titus, P.; Radovinsky, A.; Zhukovsky, A.; Hwang, K.P.; Naumovich, G.J.; Camille, R.J. Jr.;

Advances in Cryogenic Engineering, Volume 49, (2004), 701-710.

 

46. First Integrated Test of Superconducting Magnet Systems for the Levitated Dipole Experiment (LDX)

A. Zhukovsky; P. C. Michael; J. H. Schultz; B. A. Smith; J. V. Minervini; J. Kesner; A. Radovinsky; D. Garnier; M. Mauel;

VLT News. The Newsletter for the Virtual Laboratory for Technology

Volume 6, No. 2, August, 2003, 5 pages

 

45. Superconducting magnet systems for the muon-electron conversion experiment

Smith, B.A.; Radovinsky, A.; Titus, P.H.; Smith, J.L.; Brisson, J.G.; Minervini, J.V.; Schultz, J.H.; Camille, R.J., Jr.; Molzon, W.R.; Hebert, M.; Liu, T.J.; Hassenzahl, W.V.;

IEEE Transactions on Applied Superconductivity,

Volume 13, Issue 2, Part 2, June 2003 Page(s):1377 - 1380

 

44. The Advanced Hydrotest Facility (AHF) large bore quadrupole focusing magnet system

Schultz, J.H.; Antaya, T.; Minervini, J.V.; Radovinsky, A.L.; Smith, B.A.; Camille, R.J.; Myatt, R.L.; Jason, A.; Walstrom, P.; Waynert, J.A.;

IEEE Transactions on Applied Superconductivity,

Volume 13, Issue 2, Part 2, June 2003 Page(s):1343 - 1346

 

43. Fabrication and test of the LDX levitation coil

Michael, P.C.; Zhukovsky, A.; Smith, B.A.; Schultz, J.H.; Radovinsky, A.; Minervini, J.V.; Hwang, K.P.; Naumovich, G.J.;

IEEE Transactions on Applied Superconductivity,

Volume 13, Issue 2, Part 2, June 2003 Page(s):1620 - 1623

 

42. Parameters and requirements of superconducting focusing quadrupoles for heavy ion fusion

Bangerter, R.; Barnard, J.; Brown, T.; Faltens, A.; Chen-Yu Gung; Lee, E.; Lietzke, A.; Lund, S.;

Manahan, R.; Martovetsky, N.; Meinke, R.; Minervini, J.; Myatt, L.; Radovinsky, A.; Sabbi, G.; Schultz, J.; Seidl, P.; Yu, S.;

IEEE Transactions on Applied Superconductivity,

Volume 13, Issue 2, Part 2, June 2003 Page(s):1530 - 1535

 

41. Superconducting focusing quadrupoles for heavy ion fusion experiments

Sabbi, G.; Faltens, A.; Leitner, M.; Lietzke, A.; Seidl, P.; Barnard, J.; Lund, S.; Martovetsky, N.; Gung, C.; Minervini, J.; Radovinsky, A.; Schultz, J.; Meinke, R.;

Proceedings of the Particle Accelerator Conference, 2003. PAC 2003.

Volume 3, 12-16 May 2003 Page(s):1990 - 1992 vol.3

 

40. Status of the floating coil of the Levitated Dipole Experiment

Zhukovsky, A.; Garnier, D.; Gung, C.; Kesner, J.; Mauel, M.; Michael, P.; Minervini, J.; Morgan, M.; Pedersen, T.S.; Radovinsky, A.; Schultz, J.; Smith, B.;

IEEE Transactions on Applied Superconductivity,

Volume 12, Issue 1, March 2002 Page(s):666 - 669

 

39. Test of the ITER central solenoid model coil and CS insert

Martovetsky, N.; Michael, P.; Minervini, J.; Radovinsky, A.; Takayasu, M.; Gung, C.Y.; Thome, R.; Ando, T.; Isono, T.; Hamada, K.; Kato, T.; Kawano, K.; Koizumi, N.; Matsui, K.; Nakajima, H.; Nishijima, G.; Nunoya, Y.; Sugimoto, M.; Takahashi, Y.; Tsuji, H.; Bessette, D.; Okuno, K.; Mitchell, N.; Ricci, M.; Zanino, R.; Savoldi, L.; Arai, K.; Ninomiya, A.;

IEEE Transactions on Applied Superconductivity,

Volume 12, Issue 1, March 2002 Page(s):600 - 605

 

38. Advanced Hydrotest Facility (AHF). Case II Quadrupole Design Study. Final Report

Joel H. Schultz; A. Radovinsky; B. Smith; J.V. Minervini; R.L. Myatt and R.J. Camille, Jr.

PSFC/RR-02-4, February 26, 2002, 73 pages

 

37. Test of the ITER ITER Central Solenoid Model Coil and CS Insert

N. Martovetsky; P. Michael; J. Minervini; A. Radovinsky; M. Takayasu; R. Thome; T. Ando; T. Isono; K. Hamada; T. Kato; K. Kawano; N. Koizumi; K. Matsui; H. Nakajima; G. Nishijima; Y. Nunoya; M. Sugimoto; Y. Takahashi; H. Tsuji; D. Bessette; K. Okuno; N. Mitchell; M. Ricci; R. Zanino; L. Savoldi; K. Arai and A. Ninomiya

LLNL, Preprint UCRL-JC-145427

September 25, 2001, 8 pages

 

36. Charging magnet for the floating coil of LDX

Zhukovsky, A.; Schultz, J.; Smith, B.; Radovinsky, A.; Garnier, D.; Filatov, O.; Beljakov, V.; Egorov, S.; Kuchinsky, V.; Malkov, A.; Bondarchouk, E.; Korsunsky, V.; Sytnikov, V.;

IEEE Transactions on Applied Superconductivity,

Volume 11, Issue 1, Part 2, March 2001 Page(s):1873 - 1876

 

35. Design, fabrication and test of the react and wind, Nb3Sn, LDX floating coil

Smith, B.A.; Schultz, J.H.; Zhukovsky, A.; Radovinsky, A.; Gung, C.; Michael, P.C.; Minervini, J.V.; Kesner, J.; Garnier, D.; Mauel, M.; Naumovich, G.; Kocher, R.;

IEEE Transactions on Applied Superconductivity,

Volume 11, Issue 1, Part 2, March 2001 Page(s):2010 - 2013

 

34. High temperature superconducting levitation coil for the Levitated Dipole Experiment (LDX)

Schultz, J.H.; Driscoll, G.; Garnier, D.; Kesner, J.; Mauel, M.; Minervini, J.V.; Smith, B.; Radovinsky, A.; Snitchler, G.; Zhukovsky, A.;

IEEE Transactions on Applied Superconductivity,

Volume 11, Issue 1, Part 2, March 2001 Page(s):2004 - 2009

 

33. ITER CS model coil and CS insert test results

Martovetsky, N.; Michael, P.; Minervini, J.; Radovinsky, A.; Takayasu, M.; Thome, R.; Ando, T.; Isono, T.; Kato, T.; Nakajima, H.; Nishijima, G.; Nunoya, Y.; Sugimoto, M.; Takahashi, Y.; Tsuji, H.; Bessette, D.; Okuno, K.; Ricci, M.;

IEEE Transactions on Applied Superconductivity,

Volume 11, Issue 1, Part 2, March 2001 Page(s):2030 - 2033

 

32. Superconducting magnets for Maglifter launch assist sleds

Schultz, J.H.; Radovinsky, A.; Thome, R.J.; Smith, B.; Minervini, J.V.; Myatt, R.L.; Meinke, R.; Senti, M.;

IEEE Transactions on Applied Superconductivity,

Volume 11, Issue 1, Part 2, March 2001 Page(s):1749 - 1752

 

31. Multi-cylinder quadrupoles with square cross section

Meinke, R.B.; Goodzeit, C.; Hinson, W.; Gung, C.; Minervini, J.; Radovinsky, A.; Schultz, J.; Smith, B.; Camille, R.; Myatt, L.;

Proceedings of the 2001 Particle Accelerator Conference, PAC 2001.

Volume 5, 18-22 June 2001 Page(s):3439 - 3441 vol.5

 

30. Magnetic Imaging Lenses for the Advanced Hydrodynamic Facility

A. J. Jason; C. T. Mottershead; W. P. Lysenko; F. Neri; P. L. Walstrom; J. A. Waynert; J. P. Kelley; J. D. Zumbro; J. H. Schultz; R. J. Camille; R. L. Myatt; A. Radovinsky; B. Smith; R. J. Thome;

LANL, 2000 ANS/ENS International Meeting, November 13-15, 2000, Washington, D. C.

 

29. First Test Results on ITER CS Model Coil and CS Insert

N. Martovetsky; P. Michael; J. Minervini; A. Radovinsky; M. Takayasu; R. Thome; T. Ando; T. Isono; T. Kato; H. Nakajima; G. Nishijima; Y. Nunoya; M. Sugimoto; Y. Takahashi; H. Tsuji; D. Bessette; K. Okuno; M. Ricci; R. Maix;

LLNL, Preprint UCRL-JC-140924

October 12, 2000, 14 pages

 

28. First Test Results on ITER CS Model Coil and CS Insert

N. Martovetsky; P. Michael; J. Minervini; A. Radovinsky; M. Takayasu; R. Thome; T. Ando; T. Isono; T. Kato; H. Nakajima; G. Nishijima; Y. Nunoya; M. Sugimoto; Y. Takahashi; H. Tsuji; D. Bessette; K. Okuno; M. Ricci;

LLNL, Preprint UCRL-JC-140341

October 7, 2000, 8 pages

 

27. Design and fabrication of the cryostat for the floating coil of the Levitated Dipole Experiment (LDX)

Zhukovsky, A.; Morgan, M.; Garnier, D.; Radovinsky, A.; Smith, B.; Schultz, J.; Myatt, L.; Pourrahimi, S.; Minervini, J.;

IEEE Transactions on Applied Superconductivity,

Volume 10, Issue 1, March 2000 Page(s):1522 – 1525

 

26. EDS Levitation and Guidance Using Sheet Guideways

Thome, R.; Radovinsky, A.;

2000, Maglev’2000, Rio de Janeiro, Brazil: p. 236

 

25. The Levitated Dipole Experiment (LDX) magnet system

Schultz, J.H.; Kesner, J.; Minervini, J.V.; Radovinsky, A.; Pourrahimi, S.; Smith, B.; Thomas, P.; Wang, P.W.; Zhukovsky, A.; Myatt, R.L.; Kochan, S.; Mauel, M.; Garnier, D.;

IEEE Transactions on Applied Superconductivity,

Volume 9, Issue 2, Part 1, June 1999 Page(s):378 - 381

 

24. LDX Machine Design and Diagnostics

Garnier, D.; Mauel, M. ; Kesner, J. ; Kochan, S.; Michael, P.; Myatt, R.L. ; Pourrahimi, S.; Radovinsky, A.; Schultz, J.; Smith, B. ; Thomas, P.; Wang, P-W. ; Zhukovsky, A.;

American Physical Society, Division of Plasma Physics Meeting,

November 16-20, 1998 New Orleans, LA, abstract #F3P.34

 

23. The KSTAR superconducting magnet system

Schultz, J.H.; Michel, P.; Myatt, L.M.; Radovinsky, A.; Wang, P.W.; Reiersen, W.; Brown, T.; Kim, K.; Baang, S.; Choi, H.;

17th IEEE/NPSS Symposium Fusion Engineering, 1997.

Volume 2, 6-10 Oct. 1997 Page(s):645 - 648 vol.2

 

22. TPX superconducting tokamak magnet system 1995 design and status overview

Deis, G.; Bulmer, R.; Carpenter, R.; Cassidy, E.; Chaplin, M.; Felker, B.; Hibbs, S.; Jackson, M.; Korbel, G.; Lang, D.; Martovetsky, N.; Parker, J.; Pedrotti, L.; Shen, S.; Southwick, E.; Wendland, C.; Zbasnik, J.; Hale, R.; Jeong, S.; Michael, P.; Pillsbury, R., Jr.; Pourrahimi, S.; Radovinsky, A.; Schultz, J.; Shajii, A.; Smith, S.; Takayasu, M.; Wang, P.; Citrolo, J.; Myatt, R.L.; Albritton, N.; Alger, D.; Antaya, T.; Batchelder, R.; Bell, H.; Bensiek, W.; Brandesberg, T.; Conde, P.; deKoven, R.; Grut, K.; Johanson, D.; Hoffman, D.; Holt, B.; Hook, E.; Huang, X.; Kunz, R.; Lehman, G.; Lvovsky, Y.; Maloney, J.; Markham, G.; Meissner, J.; Rackov, P.; Rey, C.; Ryan, R.; Smith, R.; Stutski, D.; Tong, W.; VandeBogart, J.; Weber, C.; Whitfield, R.; Wilmer, B.; Xu, M.; Young, W.; Gibson, C.; Leuer, J.; Luxom, J.; Calvin, H.; Cesar, C.; Corpuz, A.; Lajeunesse, M.; McAuliffe, P.; Moleni, C.; Parman, R.; Potter, D.; Christianson, O.; Hannan, W.; Hillenbrand, R.; Hordabay, J.; Johnson, D.; Krefta, M.; Kupisewski, T.; Lowry, J.; Roach, J.; Sanger, P.; Singh, S.; Swartzback, G.; Urban, W.; Burger, A.; Clarkson, I.; Schulteiss, J.; Walstrom, P.; Hartman, D.; Naumovich, G.;

16th IEEE/NPSS Symposium Fusion Engineering, 1995. SOFE '95. 'Seeking a New Energy Era',

Volume 2, 30 Sept.-5 Oct. 1995 Page(s):1383 - 1388 vol.2

 

21. Poloidal field system for the Tokamak Physics Experiment

Schultz, J.H.; Pillsbury, R.D., Jr.; Radovinsky, A.; Wang, P.W.; Citrolo, J.; Bulmer, R.J.; Lang, D.; O'Connor, T.; Slack, D.; Zbasnik, J.; Myatt, L.;

IEEE Transactions on Applied Superconductivity,

Volume 5, Issue 2, Part 1, Jun 1995 Page(s):437 - 440

 

20. Thermal analysis of the TPX TF coil case for eddy-current and neutron heating

Myatt, R.L.; Radovinsky, A.L.; Pillsbury, R.D., Jr.;

IEEE Transactions on Applied Superconductivity,

Volume 5, Issue 2, Part 1, Jun 1995 Page(s):925 - 928

 

19. Eddy current heating in the cold structure in TPX

Radovinsky, A.L.; Pillsbury, R.D., Jr.; Schultz, J.H.; Myatt, R.L.;

IEEE Transactions on Magnetics,

Volume 30, Issue 5, Part 2, Sep 1994 Page(s):3701 - 3704

 

18. The Design of the Tokamak Physics Experiment (TPX)

J. A. Schmidt; K. I. Thomassen; R. J. Goldston; G. H. Neilson; W. M. Nevins; J. C.

Sinnis; P. Anderson; W. Bair; W. L. Barr; D. B. Batchelor; C. Baxi; G. Berg; S.

Bernabei; J. M. Bialek; P. T. Bonoli; A. Boozer; D. Bowers; G. Bronner; J. N.

Brooks; T. G. Brown; R. Bulmer; D. Butner; R. Campbell; T. Casper; E.Chaniotakis; M. Chaplin; S. J. Chen; E. Chin; J. Chrzanowski; J. Citrolo; M. J. Cole; F. Dahlgren; F. C. Davis; J. Davis; S. Davis; N. Diatchenko; S. Dinkevich; Y. Feldshteyn; B. Felker; T. Feng; M. E. Fenstermacher; R. Fleming; P. J. Fogarty; W. Fragetta; E. Fredd; M. Gabler; J. Galambos; Y. Gohar; P. L. Goranson; N. Greenough; L. R. Grisham; J. Haines ;P S. Haney; W. Hassenzahl; J. Heim; P. J. Heitzenroeder; D. N. Hill; T. Hodapp; W. A. Houlberg; A Hubbard; A. Hyatt; M. Jackson; E. F. Jaeger; S. C. Jardin; J. Johnson; G. H. Jones; D. R. Juliano; R. Junge; M. Kalish; C. E. Kessel; D. Knutson; R. J. LaHaye; D. D. Lang; R. A.

Langley; S.-L. Liew; E. Lu; H. Mantz; J. Manickam; T. K. Mau; S. Medley; D. R. Mikkelsen; R. Miller; D. Monticello; D. Morgan; P. Moroz; C. Motloch; J. Mueller; L. Myatt; B. E. Nelson; C. L. Neumeyer; D. Nilson; T. O’Conner; L. D. Pearlstein; W. A. Peebles; M. Pelovitz; F. W. Perkins; L. J. Perkins; D. Petersen; R. Pillsbury; P. A. Politzer; N. Pomphrey; M. Porkolab; A. Posey; A. Radovinsky; S. Raftopoulis; S. Ramakrishnan; J. Ramos; W. Rauch; D. Ravenscroft; K. Redler; W. T. Reiersen; A. Reiman; E. Reis; G. Rewoldt; D. J. Richards; R. Rocco; T. D. Rognlien; D. Ruzic; S. Sabbagh; J. Sappp; R. 0. Sayer; J. E. Scharer; L. Schmitz; J. Schultz; L. Sevier; S. E. Shipley; R. T Simmons; D. Slack; G. R. Smith; R. Stambaugh; G. Steill; T. Stevenson; S. Stoenescu; K. T. St. Onge; D. P. Statler; T. Strait; D. J. Strickler; D. W. Swain; W. Tang; M. Tuszewski; M. A. Ulrickson; A. VonHalle; M. S. Walker; C. Wang; P. Wang; J. Warren; K. A. Werley; W. P. West; F. Williams; R. Wong; K. Wright; G. A. Wurden; J. J. Yugo; L. Zakharov; and J. Zbasnik;

Journal of Fusion Energy,

Vol. 12, No. 3, 1993, 221 - 258

 

17. The TPX superconducting magnet system

Schultz, J.H.; Bromberg, L.; Chaniotakis, E.; Diatchenko, N.; Guss, W.; Liao, C.P.; Minervini, J.; Montgomery, D.B.; Pillsbury, R.D., Jr.; Radovinsky, A.; Takayasu, M.; Wang, P.W.; Brown, T.G.; Citrolo, J.; Bulmer, R.J.; Chaplin, M.; Lang, D.; Hassenzahl, W.V.; Heim, J.R.; O'Connor, T.; Slack, D.; Wong, R.; Zbasnik, J.; Myatt, L.;

15th IEEE/NPSS Symposium on Fusion Engineering, 1993.,

Volume 2, 11-15 Oct. 1993 Page(s):788 - 793 vol.2

 

16. Comparison of Magnetic Lift and Drag Forces for Two EDS Maglev Topologies

Hale, J.R.; Montgomery, D.B.; Pillsbury, R.D. Jr.; Thome, R.J.; Feng, J.; Radovinsky; A.;

Proc. of 13th International Conference on Magnetically Levitated Systems and Linear Drivers,

Argonne, IL, May, 1993, 165 - 170

 

15. Electromagnetic modeling of the TPX coils and the cold structure

Radovinsky, A.L.; Pei-Wen Wang; Pillsbury, R.D., Jr.;

15th IEEE/NPSS Symposium on Fusion Engineering, 1993,

Volume 2, 11-15 Oct. 1993, Page(s):719 - 722 vol.2

 

14. System Concept Definition / Report for the National Maglev Initiative

Magplane International, Inc., 1993. Army Corps of Engineers

Contract No. DTFR53-92-C-00006, September, 1992; 10 volumes, 1200 pages.

 

13. General equations of the theory of magnetoelasticity of thin shells. Formulation of the problem and estimates of accuracy.

Gol'denveizer, A.L.; Radovinsky, A.L.; Vassiliev, D.G.; Kaplunov, J.D.;

Institute for Problems in Mechanics, USSR Academy of Sciences,

1989, Preprint no. 400. 44 pages. (in Russian)

 

12. Solution of magnetic heating problems for thin shells

Radovinsky, A.L.;

Mechanics of Solids, Proc. of Soviet Academy of Sciences

1989, Vol. 24, No. 4, 155-158

 

11. General theorems of the electromechanics of thin elastic shells

Radovinsky, A.L.;

Applied Mathematics and Mechanics, Proc. of Soviet Academy of Sciences 

1989, Vol. 53, No. 4, 514-519

 

10. Elastic conducting shells in alternating electromagnetic fields

Radovinsky, A.L.;

Mechanics of Solids, Proc. of Soviet Academy of Sciences 

1988, Vol. 23, No. 5, 117-122

 

9. On the equations of electromagnetic processes in electrically conducting shells

Radovinsky, A.L.;

Soviet Power Engineering

1987, No. 4, 152-155

 

8. Damping of oscillations of shells in weak magnetic fields

Radovinsky, A.L.;

Mechanics of Solids, Proc. of Soviet Academy of Sciences

1987, Vol. 22, No. 3, 158-163

 

7. Determination of the electromagnetic field in a thin strip moving in a harmonic magnetic field

Radovinsky, A.L.;

The Soviet Journal of Nondestructive Testing

1987, Vol. 23, No. 5, 329-333

 

6. The spectral structure of the problem of magnetic elasticity of thin plates

Radovinsky, A.L.;

Mechanics of Solids, Proc. of Soviet Academy of Sciences

1987, Vol. 22, No. 1, 160-167

 

5. Asymptotic analysis of vibrations and radiation of a shell of revolution in a fluid

Radovinsky, A.L.; Gol'denveizer, A.L.;

Institute for Problems in Mechanics, USSR Academy of Sciences,

1986, Preprint no. 275. 61 pages. (in Russian)

 

4. Dynamics of elastic electrically conducting shells in constant and nonstationary magnetic fields

Radovinsky, A.L.;

Applied Mathematics and Mechanics, Proc. of Soviet Academy of Sciences

1986, Vol. 50, No. 5, 614-619

 

3. Nonaxisymmetrical vibrations of shells of revolution containing a fluid

Radovinsky, A.L.;

Mechanics of Solids, Proc. of Soviet Academy of Sciences

1981, Vol. 16, No. 2, 116-122

 

2. Classification of free vibrations of shells containing a liquid

Radovinsky, A.L.;

Mechanics of Solids, Proc. of Soviet Academy of Sciences

1979, Vol. 14, No. 6, 105-114

 

1. On optimum design of shells of revolution manufactured by winding of high elastic module fibers

Radovinsky, A.L.; Bunakov, V.A.;

Mekhanica Polymerov, Proc. of Latvian Academy of Sciences

1975, No. 5, 822-828 (in Russian)

 

PATENTS:

12. PARTICLE ACCELERATION IN A VARIABLE-ENERGY SYNCHROCYCLOTRON BY A SINGLE-TUNED VARIABLE-FREQUENCY RF DRIVE

Radovinsky, Alexey

WO 2017/160758 Al

 

11. IRONLESS, ACTIVELY SHIELDED, VARIABLE FIELD MAGNET FOR MEDICAL GANTRIES

Radovinsky, Alexey; Bromberg, Laslie; Minervini, Joseph; Michael, Philip; Pearson, Emma; Forton, Eric

WO 2017/087541 Al

 

10. FIELD MAKEABLE CRYOSTAT/CURRENT CONNECTIONS FORAN HTS TAPE POWER CABLE

Radovinsky, Alexey

US 2016/0141079 A1

 

9. PHASE-LOCK LOOP SYNCHRONIZATION BETWEEN BEAM ORBIT AND RF DRIVE IN SYNCHROCYCLOTRONS

Bromberg, Leslie; Minervini, Joseph V.; Le, Peisi; Radovinsky, Alexey; Michael, Philip C.; Antaya, Timothy A.

US 2014/0028220 A1

 

8. INDUCTIVELY DECOUPLED DUAL SMES IN A SINGLE CRYOSTAT

Radovinsky, Alexey

US 2015/0357104 A1

 

7. SYNCHROCYCLOTRON BEAM ORBIT AND RF DRIVE SYNCHROCYCLOTRON

Bromberg, Leslie; Minervini, Joseph V.; Radovinsky, Alexey; Michael, Philip C.

WO 2014/018706 A1

 

6. ULTRA-LIGHT, MAGNETICALLY SHIELDED, HIGH-CURRENT, COMPACT CYCLOTRON

Bromberg, Leslie; Minervini, Joseph V.; Le, Peisi; Radovinsky, Alexey; Michael, Philip C.; Antaya, Timothy A.

US 8,975,836 B2

 

5. NON-AXISYMMETRIC PERIODIC PERMANENT MAGNET FOCUSING SYSTEM

Bhatt, Ronak J.; Chen, Chiping; Radovinsky, Alexey; Zhou, Jing

US 7,663,327 B2

 

4. MAGNET STRUCTURE FOR PARTICLE ACCELERATOR

Antaya, Timothy; Radovinsky, Alexey; Schultz, Joel; Titus, Peter; Smith, Brad; Bromberg, Leslie

US 7,656,258 Bl

 

3. CRYOGENIC VACUUM BREAK THERMAL COUPLER

Radovinsky, Alexey; Zhukovsky, Alexander; Fishman, Valery

US 8,069,675 B2

 

2. COMPENSATED PRECESSIONAL BEAM EXTRACTION FOR CYCLOTRONS

Antaya, Timothy A.; Feng, Jun; Radovinsky, Alexey; Sobczynski, Stanislaw P.

US 8,581,525 B2

 

1. CRYOGENIC VACUUM BREAK THERMAL COUPLER WITH CROSS-AXIAL ACTUATION

Radovinsky, Alexey; Zhukovsky, Alexander

US 8,291, 717 B2