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2. Ticos, C.M., W. Zhehui, and G.A. Wurden, Observation of the Evolution of Supersonic Plasma Jet Launched by a Coaxial Gun. Ieee Transactions on Plasma Science, 2011. 39(11).

3. LaBombard, B., et al., Scaling of the power exhaust channel in Alcator C-Mod. Physics of Plasmas, 2011. 18(5).

4. Grabowski, C., et al., FRC lifetime studies for the Field Reversed Configuration Heating experiment. 2011 IEEE 38th International Conference on Plasma Sciences (ICOPS), 2011.

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14. Intrator, T.P., et al., Field Reversed Configuration Translation and the Magnetized Target Fusion Collaboration. Journal of Fusion Energy, 2009. 28(2): p. 165-169.

15. Grabowski, C., et al., Frc Compression Heating Experiment (Chx) at Afrl. Current Trends in International Fusion Research, Proceedings, 2009. 1154: p. 47-48.

16. Degnan, J.H., et al., Experiments on field reversed configuration (FRC) formation and their compression using liners. 2009 IEEE 36th International Conference on Plasma Science (ICOPS), 2009.

17. Zhehui, W., et al., Applications and progress of dust injection to fusion energy. AIP Conference Proceedings, 2008. 1041.

18. Wang, Z.H., et al., Applications and progress of dust injection to fusion energy. Multifacets of Dusty Plasma, 2008. 1041: p. 135-138.

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20. Ticos, C.M., et al., Plasma jet acceleration of dust particles to hypervelocities. Physics of Plasmas, 2008. 15(10).

21. Ticos, C.M., Z.H. Wang, and G.A. Wurden, A new parameter regime for dust in plasma: the case of dense and supersonic plasma flows. Multifacets of Dusty Plasma, 2008. 1041: p. 63-66.

22. Ticos, C.M., Z.H. Wang, and G.A. Wurden, Hypervelocity Dust Storm Launched With a Coaxial Plasma Gun. Ieee Transactions on Plasma Science, 2008. 36(5): p. 2770-2774.

23. Ticos, C.M., et al., Observation of Hypervelocity Dust in Dense Supersonic Plasma Flows: Physics and Applications. Frontiers in Modern Plasma Physics, 2008. 1061: p. 112-121.

24. Ticos, C.M., et al., Experimental demonstration of plasma-drag acceleration of a dust cloud to hypervelocities. Physical Review Letters, 2008. 100(15).

25. Ticos, C.M., et al., Plasma jet acceleration of dust particles to hypervelocities. Physics of Plasmas, 2008. 15(10).

26. Ticos, C.M., Z. Wang, and G.A. Wurden, A new parameter regime for dust in plasma: the case of dense and supersonic plasma flows, in Multifacets of Dusty Plasma, J.T.R.D.P.S.P.K. Mendonca, Editor 2008. p. 63-66.

27. Ticos, C.M., Z. Wang, and G.A. Wurden, Hypervelocity Dust Storm Launched With a Coaxial Plasma Gun. Ieee Transactions on Plasma Science, 2008. 36(5): p. 2770-2774.

28. Renneke, R.M., et al., Power balance in a high-density field reversed configuration plasma. Physics of Plasmas, 2008. 15(6).

29. Intrator, T.P., et al., Physics basis and progress for a translating FRC for MTF. Journal of Fusion Energy, 2008. 27(1-2): p. 57-60.

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31. Degnan, J.H., et al., Progress on liner implosions for compression of FRCs. Proceedings of the 2006 International Conference on Megagauss Magnetic Field Generation and Related Topics, 2008.

32. Degnan, J.H., et al., Experimental and computational progress on liner implosions for compression of FRCs. Ieee Transactions on Plasma Science, 2008. 36(1): p. 80-91.

33. Zhehui, W., C.M. Ticoscedil, and G.A. Wurden, Dust trajectories and diagnostic applications beyond strongly coupled dusty plasmas. Physics of Plasmas, 2007. 14(10).

34. Woodruff, S., et al., Chair summaries from the 2006 Innovative Confinement Concepts (ICC) Workshop. Journal of Fusion Energy, 2007. 26(1-2): p. 3-15.

35. Wang, Z.H., C.M. Ticos, and G.A. Wurden, Dust trajectories and diagnostic applications beyond strongly coupled dusty plasmas. Physics of Plasmas, 2007. 14(10).

36. Ticos, C.M., Z. Wang, and G.A. Wurden, Hypervelocity dust storm launched with a coaxial plasma gun. 2007 Ieee Pulsed Power Conference, Vols 1-4, 2007: p. 1106-1109.

37. Scott, S., et al., Overview of the alcator C-MOD research programme. Nuclear Fusion, 2007. 47(10): p. S598-S607.

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39. Granetz, R.S., et al., Gas jet disruption mitigation studies on Alcator C-Mod and DIII-D. Nuclear Fusion, 2007. 47(9): p. 1086-1091.

40. Granetz, R., et al., Gas jet disruption mitigation studies on Alcator C-Mod (vol 46, pg 1001, 2006). Nuclear Fusion, 2007. 47(3): p. 244-244.

41. Grabowski, C., et al., FRC compression heating experiment (CHX) at AFRL. AIP Conference Proceedings, 2007. 1154.

42. Grabowski, C., et al., FRC compression heating experiment (FRCHX) at AFRL. 2007 Ieee Pulsed Power Conference, Vols 1-4, 2007: p. 1728-1731.

43. Degnan, J.H., et al., Progress on liner implosions for compression of FRC's. Megagauss Magnetic Fields and High Energy Liner Technology, 2007: p. 93-101.

44. Craig, D., et al., Chair summaries from the 2006 Innovative Confinement Concepts (ICC) Workshop. Journal of Fusion Energy, 2007. 26(1-2): p. 3-15.

45. Zhang, S.Y., et al., High-density field-reversed configuration plasma for magnetized target fusion. Ieee Transactions on Plasma Science, 2006. 34(2): p. 223-228.

46. Wang, Z.H., et al., Microparticle probes for laboratory plasmas. Ieee Transactions on Plasma Science, 2006. 34(2): p. 242-248.

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48. Shouyin, Z., et al., High-density field-reversed configuration plasma for magnetized target fusion. Ieee Transactions on Plasma Science, 2006. 34(2).

49. Ruden, E.L., et al., Multichord optical interferometry of FRX-L's field reversed configuration. Review of Scientific Instruments, 2006. 77(10).

50. Ruden, E.L., et al., Experimental profile evolution of a high-density field-reversed configuration. Physics of Plasmas, 2006. 13(12).

51. Ruden, E.L., et al., Multichord optical interferometry of FRX-L's field reversed configuration. Review of Scientific Instruments, 2006. 77(10).

52. Ruden, E.L., et al., Experimental profile evolution of a high-density field-reversed configuration. Physics of Plasmas, 2006. 13(12).

53. Kostora, M.R., S.C. Hsu, and G.A. Wurden, Twenty-channel bolometer array for studying impurity radiation and transport in the TCS field-reversed configuration. Review of Scientific Instruments, 2006. 77(10).

54. Granetz, R., et al., Gas jet disruption mitigation studies on Alcator C-Mod. Nuclear Fusion, 2006. 46(12): p. 1001-1008.

55. Dorf, L.A., et al., Imaging system for hypervelocity dust injection diagnostic on NSTX. Review of Scientific Instruments, 2006. 77(10).

56. Zhehui, W., et al., Micro-particles as probes for laboratory plasmas. IEEE Conference Record - Abstracts. 2005 IEEE International Conference on Plasma Science - ICOPS 2005 (IEEE Cat No. 05CH37707), 2005.

57. Zhang, S., et al., Confinement analyses of the high-density field-reversed configuration plasma in the field-reversed configuration experiment with a liner. Physics of Plasmas, 2005. 12(5).

58. Wang, Z.H., et al., A Penning-assisted subkilovolt coaxial plasma source. Review of Scientific Instruments, 2005. 76(3).

59. Shouyin, Z., et al., Reproducible high density field-reversed configuration plasma for magnetized target fusion. IEEE Conference Record - Abstracts. 2005 IEEE International Conference on Plasma Science - ICOPS 2005 (IEEE Cat No. 05CH37707), 2005.

60. Ono, M., et al., Status and plans for the National Spherical Torus Experimental research facility. Transactions of the Institute of Electrical Engineers of Japan, Part A, 2005. 125-A(11).

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63. Zhang, S.Y., et al., Separatrix radius measurement of field-reversed configuration plasma in FRX-L. Review of Scientific Instruments, 2004. 75(10): p. 4289-4292.

64. Wang, Z.H. and G.A. Wurden, Hypervelocity dust beam injection for national spherical torus experiment. Review of Scientific Instruments, 2004. 75(10): p. 3436-3438.

65. Intrator, T., et al., A high density field reversed configuration (FRC) target for magnetized target fusion: First internal profile measurements of a high density FRC. Physics of Plasmas, 2004. 11(5): p. 2580-2585.

66. Intrator, I.P., et al., A high-density field reversed configuration plasma for magnetized target fusion. Ieee Transactions on Plasma Science, 2004. 32(1): p. 152-160.

67. Furno, I. and G.A. Wurden, Near infrared spectroscopy of the divertor region in the Alcator C-Mod tokamak. Review of Scientific Instruments, 2004. 75(10): p. 4112-4114.

68. Wang, Z.H. and G.A. Wurden, Hypervelocity dust beam injection for internal magnetic field mapping. Review of Scientific Instruments, 2003. 74(3): p. 1887-1891.

69. Tuszewski, M., R.R. White, and G.A. Wurden, Relaxation oscillations of low-frequency Ar/SF6 inductive plasma discharges. Plasma Sources Science & Technology, 2003. 12(3): p. 396-402.

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77. Maingi, R., et al., Recent results from the national spherical torus experiment. Plasma Physics and Controlled Fusion, 2003. 45(5): p. 657-669.

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86. Zhehui, W., et al., Density and H alpha diagnostics and results for the sustained spheromak physics experiment. Review of Scientific Instruments, 2001. 72(1).

87. Wurden, G.A., et al., Diagnostics for a magnetized target fusion experiment. Review of Scientific Instruments, 2001. 72(1): p. 552-555.

88. Wood, R.D., et al., Particle control in the sustained spheromak physics experiment. Journal of Nuclear Materials, 2001. 290: p. 513-517.

89. Wang, Z.H., et al., Density and H-alpha diagnostics and results for the sustained spheromak physics experiment. Review of Scientific Instruments, 2001. 72(1): p. 1059-1062.

90. Tobin, S.J., et al., Rotating magnetic field oscillator system for current drive in the translation, confinement, and sustainment experiment. Review of Scientific Instruments, 2001. 72(9): p. 3528-3533.

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93. Sudo, S., et al., Overview of large helical device diagnostics (invited). Review of Scientific Instruments, 2001. 72(1): p. 483-491.

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103. Degnan, J.H., et al., Progress on formation of field reversed configurations suitable for subsequent compression to magnetized target fusion conditions. IEEE Conference Record - Abstracts. PPPS-2001 Pulsed Power Plasma Science 2001. 28th IEEE International Conference on Plasma Science and 13th IEEE International Pulsed Power Conference (Cat. No.01CH37255), 2001.

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106. Ashikawa, N., et al., Infrared imaging bolometry for long pulse discharges on LHD. Proceedings of 10th International Toki Conference on Plasma Physics and Controlled Nuclear Fusion. Physica and Technology for Steady State Plasmas, 2000.

107. Wurden, G.A., A.J. Wurden, and I.M. Gladstone, Plasma tails: Comets Hale-Bopp and Hyakutake. Ieee Transactions on Plasma Science, 1999. 27(1): p. 142-143.

108. Wurden, G.A., et al., Magnetized target fusion: a burning FRC plasma in an imploded metal can. Proceedings of 9th International Toki Conference on Plasma Physics and Controlled Nuclear Fusion (ITC-9). New Frontiers in Plasma Physics, 1999.

109. Wurden, G.A. and B.J. Peterson, Development of imaging bolometers for long-pulse MFE experiments (invited). Review of Scientific Instruments, 1999. 70(1): p. 255-259.

110. Ono, M., et al., Making of the NSTX facility. 18th Ieee/Npss Symposium on Fusion Engineering, 1999: p. 53-58.

111. Maqueda, R.J., et al., The new infrared imaging system on Alcator C-Mod. Review of Scientific Instruments, 1999. 70(1): p. 734-737.

112. Maqueda, R.J. and G.A. Wurden, Images of plasma disruption effects in the tokamak fusion test reactor. Ieee Transactions on Plasma Science, 1999. 27(1): p. 112-113.

113. Maqueda, R.J. and G.A. Wurden, Fast imaging of visible phenomena in TFTR. Nuclear Fusion, 1999. 39(5): p. 629-636.

114. Degnan, J.H., et al., Magnetic pressure driven implosion of solid liner suitable for compression of field reversed configurations. IEEE Conference Record - Abstracts. 1999 IEEE International Conference on Plasma Science. 26th IEEE International Conference (Cat. No.99CH36297), 1999.

115. Wurden, G.A. and B.J. Peterson, Imaging bolometry development for large fusion devices. Diagnostics for Experimental Thermonuclear Fusion Reactors 2, 1998: p. 399-408.

116. Reass, W.A., et al., Operational performance of the two channel 10 megawatt feedback amplifier system for MHD control on the Columbia University HBT-EP tokamak. 17th Ieee/Npss Symposium on Fusion Engineering, Vols 1 and 2, 1998: p. 497-500.

117. Reass, W.A., et al., Initial design of the 60 Megawatt rotating magnetic field (RMF) oscillator system for the University of Washington "TCS" field reversed configuration experiment. 17th Ieee/Npss Symposium on Fusion Engineering, Vols 1 and 21998. 473-476.

118. Reass, W.A., D.A. Miera, and G.A. Wurden, Initial design of the 60 Megawatt rotating magnetic field (RMF) oscillator system for the University of Washington "TCS" field reversed configuration experiment. 17th Ieee/Npss Symposium on Fusion Engineering, Vols 1 and 2, 1998: p. 473-476.

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122. Adams, J.M., et al., ICRF results in D-T plasmas in JET and TFTR and implications for ITER. Plasma Physics and Controlled Fusion, 1998. 40: p. A87-A103.

123. Wurden, G.A., B.J. Peterson, and S. Sudo, Design of an imaging bolometer system for the large helical device. Review of Scientific Instruments, 1997. 68(1): p. 766-769.

124. Wurden, G.A., et al., Atlas chamber, power flow channel, and diagnostic interface design. 11th Ieee International Pulsed Power Conference - Digest of Technical Papers, Vols. 1 & 2, 1997: p. 1291-1296.

125. Wurden, G.A., A radiation-hard, steady state, digital imaging bolometer system. Fusion Engineering and Design, 1997. 34-35: p. 301-305.

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130. Sasao, M., G.A. Wurden, and D.K. Mansfield, Spectroscopic measurement of the Doppler broadening region of He II line emission of DT plasmas using impurity pellets. Fusion Engineering and Design, 1997. 34-35: p. 333-336.

131. Roquemore, L., S.J. Zweben, and G.A. Wurden, Stability measurements of PPL atmospheric pressure arc. IEEE Conference Record - Abstracts. 1997 IEEE International Conference on Plasma Science (Cat. No.97CH36085), 1997.

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139. Wurden, G.A. and D.O. Whiteson, High-speed plasma imaging: A lightning bolt. Ieee Transactions on Plasma Science, 1996. 24(1): p. 83-84.

140. Wurden, G.A., A rad-hard, steady-state, digital imaging bolometer system for ITER. Diagnostics for Experimental Thermonuclear Fusion Reactors, 1996: p. 603-606.

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