Journal Articles

Jeffrey D. Colvin 

1970-present, in reverse chronological order 

*This list includes only refereed journal and conference proceedings articles; it does not  include published abstracts of conference presentations or published limited-distribution  classified reports and journal articles. 

1. Edward C. Burks, Dustin A. Gilbert, Peyton D. Murray, Chad Flores, Thomas  E. Felter, Supakit Charnvanichborikarn, Sergei O. Kucheyev, Jeffrey D.  Colvin, Gen Yin, and Kai Liu, “3D Nanomagnetism in Low Density  Interconnected Wire Networks”, Nano Letters 21, 716-722 (2021). 

2. M. J. May, J. D. Colvin, G. E. Kemp, M. A. Barrios, K. Widmann, R.  Benjamin. D. Thorn, P. Poole, and B. Blue, “Development of high intensity X ray sources at the National Ignition Facility,” Phys. Plasmas 25, 056302  (2018). 

3. J. D. Colvin, H. Matsukuma, K. C. Brown, J. F. Davis, G. E. Kemp, K. Koga,  N. Tanaka, A. Yogo, Z. Zhang, H. Nishimura, and K. B. Fournier, “The  effects of microstructure on propagation of laser-driven radiative heat waves  in under-dense high-Z plasma,” Phys. Plasmas 25, 032702 (2018). 

4. M. J. May, V. P. Opachich, G. E. Kemp, J. D. Colvin, M. A. Barrios, K. W.  Widmann, K. B. Fournier, M. Hohenberger, F. Albert, and S. P. Regan,  “Demonstration of a long-pulse X-ray source at the “National Ignition  Facility”, Phys. Plasmas 24, 042701 (2017). 

5. A. Dasgupta, R. W. Clark, N. Quart, J. Guiliani, A. Velikovich, D. J.  Ampleford, S. B. Hansen, C. Jennings, A. J. Harvey-Thompson, B. Jones, T.  M. Flanagan, K. S. Bell, J. P. Apruzese, K. B. Fournier, H. A. Scott, M. J.  May, M. A. Barrios, J. D. Colvin, and G. E. Kemp, “A non-LTE analysis of  high energy density Kr plasmas on Z and NIF”, Phys. Plasmas 23, 101208  (2016). 

6. G. E. Kemp, J. D. Colvin, B. E. Blue, and K. B. Fournier, “Simulation study of  enhancing laser driven multi-keV line radiation through application of  external magnetic fields”, Phys. Plasmas 23, 101204 (2016). 

7. M. J. May, J. Weaver, K. Widmann, G. E. Kemp, D. Thorn, J. D. Colvin, M. B.  Schneider, A. Moore, and B. E. Blue, “Understanding reconstructed Dante  spectra using high resolution spectroscopy”, Rev. Sci. Instr. 87, 11E330  (2016). 

8. F. Perez, J. D. Colvin, M. J. May, S. O. Kucheyev, S. Charnvanichborikarn,  T. E. Felter, and K. B. Fournier, “High-power laser interaction with low density C/Cu foams”, Phys. Plasmas 22, 113112 (2015). 

9. M. J. May, K. B. Fournier, J. D. Colvin, M. A. Barrios, E. L. Dewald, H.  Hohenberger, J. Moody, J. R. Patterson, M. Schneider, K. Widmann, and S.  P. Regan, “Bright x-ray stainless steel K-shell source development at the  National Ignition Facility”, Phys. Plasmas 22, 063305 (2015).

10. G. E. Kemp, J. D. Colvin, K. B. Fournier, M. J. May, M. A. Barrios, M. V.  Patel, H. A. Scott, and M. M. Marinak, “Simulation study of 3-5 keV x-ray  conversion efficiency from Ar K-shell vs. Ag L-shell targets on the National  Ignition Facility”, Phys. Plasmas 22, 053110 (2015). 

11. S. Charnvanichborikarn, M. A. Worsley, M. Bagge-Hansen, J. D. Colvin, T.  Felter, S. Kucheyev, “Ice-templating synthesis of low-density porous Cu-C  composites", J. Mater. Chem. A 2, 18600 (2014). 

12. F. Pérez, G. E. Kemp, S. P. Regan, M. A. Barrios, J. Pino, H. Scott, S. Ayers,  H. Chen, J. Emig, J. D. Colvin, M. Bedzyk, M. J. Shoup III, A. Agiliata, B.  Yaakobi, F. J. Marshall, R. A. Hamilton, J. Jaquez, M. Farrell, A. Nikroo, and  K. B. Fournier, “The NIF x-ray spectrometer calibration campaign at Omega”,  Rev. Sci. Instr. 85, 11D613 (2014). 

13. S. Charnvanichborikarn, S. J. Shin, M. A. Worsley, I. C. Tran, T. M. Willey, T.  van Buuren, T. E. Felter, J. D. Colvin, and S. O. Kucheyev, “Nanoporous Cu C composites based on carbon-nanotube aerogels”, J. Mater. Chem. A 2,  962 (2014). 

14. F. Perez, J. R. Patterson, M. May, J. D. Colvin, M. M. Biener, A. Wittstock, S.  O. Kucheyev, S. Charnvanichborikarn, J. H. Satcher, Jr., S. A. Gammon, J.  F. Poco, S. Fujioka, Z. Zhang, K. Ishihara, N. Tanaka, T. Ikenouchi, N.  Nishimura, K. B. Fournier, “Bright x-ray sources from laser-irradiation of  foams with high concentration of Ti”, Phys. Plasmas 21, 023102 (2014). 

15. K. B. Fournier, M. J. May, J. D. Colvin, M. A. Barrios, J. R. Patterson, S. P.  Regan, “Demonstration of a 13-keV Kr K-shell x-ray source at the National  Ignition Facility, Phys. Rev E 88, 033104 (2013). 

16. F. Perez, J. J. Kay, J. R. Patterson, J. Kane, B. Villette, F. Girard, C.  Reverdin, M. May, J. Emig, C. Sorce, J. D. Colvin, S. Gammon, J. Jaquez, J.  H. Satcher, Jr., K. B. Fournier, “Efficient laser-induced 6-8 keV x-ray  production from iron-oxide aerogel and foil-lined cavity targets”, Phys.  Plasmas 19, 083101 (2012). 

17. P. DeMange, R. A. Negres, R. N. Raman, J. D. Colvin, and S. G. Demos,  “Role of phase instabilities in the early response of bulk fused silica during  laser-induced breakdown”, Phys. Rev. B 84, 054118 (2011). 

18. J. D. Colvin, K. B. Fournier, J. Kane, S. Langer, M. J. May, H. A. Scott, “ A  computational study of x-ray emission from high-Z x-ray sources on the  National Ignition Facility laser”, High Energy Density Physics 7, 263 (2011). 

19. J. D. Colvin, A. Shestakov, J. Stölken, R. Vignes, “The role of radiation  transport in the thermal response of semitransparent materials to localized  laser heating”, J. Appl. Phys. 109, 053506 (2011). 

20. K. B. Fournier, M. J. May, J. D. Colvin, J. O. Kane, M. Schneider, E. Dewald,  C. A. Thomas, S. Compton, R. E. Marrs, J. Moody, E. Bond, P. Michel, J. H.  Fisher, C. D. Newlander, J. F. Davis, “Multi-keV x-ray source development  experiments on the National Ignition Facility”, Phys. Plasmas 17 082701 (2010). 

21. J. D. Colvin, K. B. Fournier, M. J. May, H. A. Scott, “A computational study of  x-ray emission from laser-irradiated Ge-doped foams”, Phys. Plasmas 17 073111 (2010).

22. W. Grigsby, B. T. Bowes, D. A. Dalton, A. C. Bernstein, S. Bless, M. C.  Downer, E. Taleff, J. D. Colvin, T. Ditmire, “Picosecond time scale dynamics  of short-pulse laser-driven shocks in tin”, J. Appl. Phys. 105, 093523 (2009). 

23. K. B. Fournier, J. H. Satcher, M. J. May, J. F. Poco, C. M. Sorce, J. D.  Colvin, S. B. Hansen, S. A. MacLaren, S. J. Moon, J. F. Davis, F. Girard, B.  Villette, M. Primout, D. Babonneau, C. A. Coverdale, and E. Beutler,  “Absolute x-ray yields from laser-irradiated Ge-doped low-density aerogels”,  Phys. Plasmas 16 052703 (2009). 

24. P. DeMange, J. D. Colvin, H. S. Park, and S. M Pollaine, “Reverberation  technique for yield strength experiments at ultrahigh pressure and strain  rate”, J. Appl. Phys. 105, 083543 (2009). 

25. J. D. Colvin, A. F. Jankowski, M. Kumar, W. J. MoberlyChan, B. W. Reed, D.  L. Paisley, and T. E. Tierney, “Role of spall in microstructure evolution during  laser-shock-driven rapid undercooling and resolidification”, J. Appl. Phys105, 014902 (2009). 

26. J. D. Colvin, R. W. Minich, and D. H. Kalantar, “A model for plasticity  kinetics and its role in simulating the dynamic behavior of Fe at high strain  rates”, Intl. J. Plasticity 25, 603-611 (2009). 

27. J. D. Colvin, C. Cerjan, R. Hoffman, M. Stoyer, and P. Amendt,  “Radiochemical Tracers as a Mix Diagnostic for the Ignition Double-Shell  Capsule”, Phys. Plasmas 15, 102704 (2008). 

28. J. D. Colvin, “Modeling Dynamic Ductility: An Equation of State for Porous  Metals”, Proc. of the Conference of the APS Topical Group on Shock  Compression of Condensed Matter, Waikoloa, Hawaii 2007 955, 31 (AIP,  Melville, NY, 2007). 

29. W. Grigsby, B. I. Cho, A. C. Bernstein, H. J. Quevedo, J. D. Colvin, M. C.  Downer, and T. Ditmire, “Development of Third Harmonic Generation as a  Short Pulse Probe of Shock Heated Material”, Proc. of the Conference of the  APS Topical Group on Shock Compression of Condensed Matter, Waikoloa,  Hawaii 2007 955, 1097 (AIP, Melville, NY, 2007). 

30. J.D. Colvin, B.W. Reed, A.F. Jankowski, M. Kumar, D.L. Paisley, D.C.  Swift, T.E. Tierney, A.M. Frank, “Microstructure Morphology of Shock Induced Melt and Rapid Resolidification in Bismuth,” Journal of Applied  Physics 101, 084906 (2007). 

31. M.R. Armstrong, K. Boyden, N.G. Browning, G.H. Campbell, J.D. Colvin,  W.J. DeHope, A.M. Frank, D.J. Gibson, F. Hartemann, J.S. Kim, W.E.  King, T.B. LaGrange, B.J. Pyke, B.W., Reed, R.M. Shuttlesworth, B.C.  Stuart, and B.R. Torralva, “Practical Considerations for High Spatial and  Temporal Resolution Dynamic Transmission Electron Microscopy,”  Ultramicroscopy 107, pp. 356-367 (2007). 

32. J. Hawreliak, J. D. Colvin, J. Eggert, D. H. Kalantar, H. E. Lorenzana, S.  Pollaine, K. Rosolankova, B. A. Remington, J. Stolken, J. S. Wark,  “Modeling Planetary Interiors in Laser Based Experiments Using Shockless  Compression”, Astrophysics and Space Science 307, pp. 285-289 (2007).

33. A. Jankowski, J. Hayes, R. Smith, B. Reed, M. Kumar, and J.D. Colvin,  “Grain Growth in Bismuth Coatings,” Materials Science and Engineering A 431, pp. 106-108 (2006). 

34. T.B. LaGrange, M.R. Armstrong, K. Boyden, C.G. Brown, N.G. Browning,  G.H. Campbell, J.D. Colvin, W.J. DeHope, A.M. Frank, D.J. Gibson, F.V.  Hartemann, J.S. Kim, W.E. King, B.J. Pyke, B.W. Reed, M.D. Shirk, R.M.  Shuttlesworth, B.C. Stuart, and B.R. Torralva, “Single Shot Dynamic  Transmission Electron Microscopy,” Appl. Physics Letters 89, 044109  (2006). 

35. T. LaGrange, G. H. Campbell, J. D. Colvin, B. Reed, and W. E. King,  “Nanosecond time resolved electron diffraction studies of the a-b in pure Ti  thin films using the dynamic transmission electron microscope (DTEM)”, J.  Mater. Sci. 41, pp. 4440-4444 (2006). 

36. D.H. Kalantar, G.W. Collins, J.D. Colvin, H.M.Davies, J.H.Eggert, J.  Hawreliak, H.E. Lorenzana, M.A. Meyers, K. Rosolankova, M.S. Scheider,  J. Sheppard, J.S. Stolken, and J.S. Walk, "Direct Observation of the alpha epsilon Transition in Shocked Single-Crystal Iron," Proc. of the Conference  of the APS Topical Group on Shock Compression of Condensed Matter,  Baltimore, Maryland 2005 845, 240 (AIP, Melville, NY, 2006). 

37. J. Hawreliak, K. Rosolankova, J. F. Belak, G. Collins, J. D. Colvin, H. M.  Davies, J. H. Eggert, T. C. Germann, B. Holian, D. H. Kalantar, P.  Lomdahl, H. E. Lorenzana, J. Sheppard, J. S. Stolken, and J. S. Wark,  “Shock-induced alpha-epsilon Phase Change in Iron: Analysis of MD  Simulations and Experiment”, Proc. of the Conference of the APS Topical  Group on Shock Compression of Condensed Matter, Baltimore, Maryland  2005 845, 220 (AIP, Melville, NY, 2006). 

38. J. S. Wark, J. F. Belak, G. W. Collins, J. D. Colvin, H. M. Davies, M.  Duchaineau, J. H. Eggert, T. C. Germann, J. Hawreliak, A. Higginbotham,  B. L. Holian, K. Kadau, D. H. Kalantar, P. S. Lomdahl, H. E. Lorenzana, M.  A. Meyers, B. A. Remington, K. Rosolankova, R. E. Rudd, M. S. Schneider,  J. Sheppard, and J. S> Stolken, “Picosecond X-ray Diffraction from Laser shocked Copper and Iron”, Proc. of the Conference of the APS Topical  Group on Shock Compression of Condensed Matter, Baltimore, Maryland  2005 845, 286 (AIP, Melville, NY, 2006). 

39. D.H. Kalantar, G.W. Collins, J.D. Colvin, J.H.Eggert, J. Hawreliak, H.E.  Lorenzana, M.A. Meyers, R.W. Minich, K. Rosolankova, M.S. Scheider,  J.S. Stolken, and J.S. Walk, "In-situ diffraction measurements of lattice  response due to shock loading, including direct observation of the alpha epsilon phase transition in iron," Int’l. Journal of Impact Engineering 33,  343-352 (2006). 

40. J. Hawreliak, J.D. Colvin, J.H.Eggert, D.H. Kalantar, H.E. Lorenzana, J.S.  Stolken, H.M.Davies, T.C. Germann, , B.L. Holian, K. Kadau, P.S.  Lomdahl, A. Higginbotham, K. Rosolankova, J. Sheppard, and J.S. Walk,  “Analysis of the x-ray diffraction signal for the α−ε transition in shock compressed iron: Simulation and experiment,” Phys. Rev. B 74, 184107  (2006).

41. W. Grigsby, B. Bowes, A. Dalton, S. Bless, M.C. Downer, E. Taleff, J.D.  Colvin, and T. Ditmire, “Diagnosis of Mbar Laser Produced Shocks in Tin  Using Short Pulse Probes,” Proc. of the Conference of the APS Topical  Group on Shock Compression of Condensed Matter, Baltimore, Maryland  2005 845, 1337 (AIP, Melville, NY, 2006). 

42. J.D. Colvin and D.H. Kalantar, “Scaling of Pressure with Intensity in Laser driven Shocks and Effects of Hot X-ray Preheat”, Proc. of the Conference  of the APS Topical Group on Shock Compression of Condensed Matter,  Baltimore, Maryland 2005 845, 1413 (AIP, Melville, NY, 2006). 

43. T. LaGrange, G. H. Campbell, J. D. Colvin, W. E. King, N. D. Browning, M.  R. Armstrong, B. W. Reed, J. S. Kim, and B. C. Stuart, "In-situ Studies of  the Martensitic Transformation in Ti Thin Films using the Dynamic  Transmission Electron Microscope (DTEM)," In-Situ Electron Microscopy of  Materials, eds. P.J. Ferreira, I.M. Robertson, G. Dehm, and H. Saka  (Materials Research Society Symposium Proceedings Vol. 907E) p. 0907- MM05-02.1 – 6 (2006). 

44. G.H. Campbell, T.B. LaGrange, W.E. King, J.D. Colvin, A. Ziegler, N.D.  Browning, H. Kleinschmidt, and O. Bostanjoglo, "The HCP to BCC Phase  Transformation in Ti Characterized by Nanosecond Electron Microscopy,"  Proceedings of the Conference on Solid-Solid Phase Transformations in  Inorganic Materials 2005 Vol. 2, edited by J.M. Howe, D.E. Laughlin, J.K.  Lee, U. Dahmen, and W.A. Soffa, pp. 443-448 (TMS, Warrendale, PA,  2005). 

45. D.H. Kalantar, J.F. Belak, G.W. Collins, J.D. Colvin, H.M.Davies,  J.H.Eggert, T.C. Germann, J. Hawreliak, B.L. Holian, K. Kadau, P.S.  Lomdahl, H.E. Lorenzana, M.A. Meyers, K. Rosolankova, M.S. Scheider, J.  Sheppard, J.S. Stolken, and J.S. Walk, "Direct Observation of the α−ε Transition in Shock-Compressed Iron via Nanosecond X-Ray Diffraction,"  Physical Review Letters 95, 075502 (2005). 

46. H. Kleinschmidt, A. Ziegler, G. H. Campbell, J. D. Colvin, and O.  Bostanjoglo, “Phase transition analysis in titanium at nanosecond time  resolution”, Journal of Applied Physics 98, 054313 (2005). 

47. J. Edwards, K. T. Lorenz, B. A. Remington, S. Pollaine, J. D. Colvin, D.  Braun, B. F. Lasinski, D. Reisman, J. M. McNaney, J. A. Greenough, R.  Wallace, H. Louis, and D. Kalantar, “Laser-Driven Plasma Loader for  Shockless Compression and Acceleration of Samples in the Solid State”,  Physical Review Letters 92, 075002 (2004). 

48. B. A. Remington and 25 others (incl. J. D. Colvin), “Materials Science  Under Extreme Conditions of Pressure and Strain Rate”, Metall. and Mat.  Trans. A, 35A, pp. 2587-2607 (2004). 

49. T. Ditmire, S. Bless, G. Dyer, A. Edens, W. Grigsby, G. Hays, K. Madison,  A. Maltsev, J. D. Colvin, M. J. Edwards, R. W. Lee, P, Patel, D. Price, B. A.  Remington, R. Shepperd, A. Wootten, J. Zweiback, E. Liang, and K. A.  Kielty, “Overview of future directions in high energy-density and high-field  science using ultra-intense lasers”, Radiation Physics and Chemistry 70 (4- 5), 535-552 (2004).

50. J. D. Colvin, E. R. Ault, W. E. King, and I. H. Zimmerman, "Computational  model for a low-temperature laser-plasma driver for shock-processing of  metals and comparison to experimental data", Phys. Plasmas 10/7, pp.  2940-2947 (2003). 

51. J. D. Colvin, M. Legrand, B. A. Remington, G. Schurtz, & S. V. Weber, "A  model for instability growth in accelerated solid metals", J. Appl. Phys. 93/9,  pp. 5287-5301 (2003). 

52. D. H. Kalantar, J. F. Belak, E. M. Bringa, K. S. Budil, M. J. Caturla, J. D.  Colvin, M. Kumar, K. T. Lorenz, R. E. Rudd, J. Stolken, A. M. Allen, K.  Rosolankova, J. S. Wark, M. A. Meyers, & M. Schneider, "High-pressure,  high-strain-rate lattice response of shocked materials", Phys. Plasmas 10/5,  pp. 1569-1576 (2003). 

53. D. H. Kalantar, E. M. Bringa, M. J. Caturla, J. D. Colvin, K. T. Lorenz, M.  Kumar, J. S. Stolken, A. M. Allen, K. Rosolankova, J. S. Wark, M. A. Meyers,  M. Schneider, & T. R. Boehly, "Multiple Film Plane Diagnostic for Shocked  Lattice Measurements", Rev. Sci. Instr. 74, 1929 (2003). 

54. P. A. Amendt, J. D. Colvin, J. D. Ramshaw, & H. F. Robey, "Modified Bell Plesset effect with compressibility: Application to double-shell ignition target  designs", Phys. Plasmas 10/3, pp. 820-829 (2003). 

55. P. A. Amendt, J. D. Colvin, R. E. Tipton, D. E. Hinkel, M. J. Edwards, O. L.  Landen, J. D. Rawshaw, L. J. Suter, W. S. Varnum, & R. G. Watt, "Indirect drive non-cryogenic double-shell ignition targets for the National Ignition  Facility: Design and analysis", Phys. Plasmas 9/5, pp. 2221-2233 (2002). 

56. D. H. Kalantar, B. A. Remington, J. D. Colvin, K. O. Mikaelian, S. V. Weber,  L. G. Wiley, J. S. Wark, A. Loveridge, A. M. Allen, A. A. Hauer, & M. A.  Meyers, "Solid-state experiments at high pressure and strain rate", Phys.  Plasmas 7/5, pp. 1999-2006 (2000). 

57. S. G. Glendinning, J. D. Colvin, S. Haan, D. H. Kalantar, O. L. Landen, M. M.  Marinak, B. A. Remington, R. Wallace, C. Cherfils, N. Dague, L. Divol, D.  Galmiche, and A. L. Richard, "Ablation-front Rayleigh-Taylor growth  experiments in spherically convergent geometry", Phys. Plasmas 7/5, pp.  2033-2039 (2000). 

58. W. S. Varnum, N. D. Delamater, S. C. Evans, P. L. Gobby, J. E. Moore, J. M.  Wallace, R. G. Watt, J. D. Colvin, R. E. Turner, V. Glebov, J. Soures, and C.  Stoeckl, "Progress toward Ignition with Noncryogenic Double-Shell  Capsules", Phys. Rev. Letters 84/22, pp. 5153-5155 (2000). 

59. D. H. Kalantar, B. A. Remington, J. D. Colvin, D. M. Gold, K. O. Mikaelian, S.  V. Weber, and L. G. Wiley, "Shock compressed solids on the Nova laser",  Proc. of the Conference of the APS Topical Group on Shock Compression of  Condensed Matter, Snowbird, Utah 1999 505, pp 1193-1197 (AIP, Melville,  NY, 2000). 

60. D. H. Kalantar, B. A. Remington, E. A. Chandler, J. D. Colvin, D. M. Gold, K.  O. Mikaelian, S. V. Weber, L. G. Wiley, J. S. Wark, A. Loveridge, A. Hauer,  B. H. Failor, M. A. Meyers, and G. Ravichandran, “Developing Solid-State  Experiments on the Nova Laser”, Astrophysical Journal Suppl. Series 127,  pp. 357-363 (2000).

61. D. H. Kalantar, B. A. Remington, E. A. Chandler, J. D. Colvin, D. Gold, K.  Mikaelian, S. V. Weber, and L. G. Wiley, "High Pressure Solid State  Experiments on the Nova Laser", International Journal of Impact Engineering 23, 409 (1999). 

62. D. H. Kalantar, E. A. Chandler, J. D. Colvin, R. Lee, B. A. Remington, S. V.  Weber, L. G. Wiley, A. A. Hauer, J. S. Wark, A. Loveridge, B. H. Failor, M. A.  Meyers, and G. Ravichandran, “Transient X-ray Diffraction Used to Diagnose  Shock Compressed Si Crystals on the Nova Laser”, Review of Scientific  Instruments 70/1, 629, (1999). 

63. R. E. Chrien, N. M. Hoffman, J. D. Colvin, C. J. Keane, O. L. Landen, and  B. A. Hammel, “Fusion neutrons from the gas-pusher interface in  deuterated-shell inertial confinement fusion implosions”, Phys. Plasmas 5/3, pp. 768-774 (1998). 

64. J. D. Colvin, L. G. Wiley, E. A. Chandler, B. A. Remington, and D. H.  Kalantar, “Dispersion Relationships for Solid State Instability Growth and  Sensitivity to Equation of State”, Proc. 6th Intern’l Workshop on the Physics  of Compressible Turbulent Mixing, Marseille, France, eds.: G Jourdan and  L. Houas, pp. 134-138 (Université de Provence, Marseille, 1997). 

65. S. G. Glendinning, M. M. Marinak, S. W. Haan, D. H. Kalantar, K. S. Budil,  R. J. Wallace, S. V. Weber, J. D. Colvin, B. A. Remington, C. Cherfils, D.  Galmiche, A. Richard, W. W. Hsing, J. Kane, and D. Arnett, “Hydrodynamic  Instability Experiments on the Nova Laser,” Proc. 6th Intern’l Workshop on  the Physics of Compressible Turbulent Mixing, Marseille, France, eds.: G  Jourdan and L. Houas, pp. 173-178 (Université de Provence, Marseille,  1997). 

66. D. H. Kalantar, B. A. Remington, E. A. Chandler, J. D. Colvin, D. L.  Griswold, R. E. Turner, S. V. Weber, and L. G. Wiley, “Nova Experiments  to Investigate Hydrodynamic Instabilities in the Solid State”, Proc. 6th Intern’l Workshop on the Physics of Compressible Turbulent Mixing,  Marseille, France, eds.: G Jourdan and L. Houas, pp. 232-237 (Université  de Provence, Marseille, 1997). 

67. O. L. Landen, C. J. Keane, B. A. Hammel, W. K. Levedahl, P. A. Amendt,  J. D. Colvin, M. D. Cable, R. Cook, T. R. Dittrich, S. W. Haan, S. P.  Hatchett, R. G. Hay, R. A. Lerche, R. McEachern, T. J. Murphy, M. B.  Nelson, L. Suter, and R. J. Wallace, “Effects of variable x-ray preheat  shielding in indirectly driven implosions”, Phys. Plasmas 3. pp. 2094-2097  (1996). 

68. O.L. Landen, C.J. Keane, B.A. Hammel, M.D. Cable, J.D. Colvin, R. Cook,  T.R. Dittrich, S.W. Haan, S.P. Hatchett, R.G. Hay, J.D. Kilkenny, R.A.  Lerche, W.K. Levedahl, R. McEachern, T.J. Murphy, M.B. Nelson, L. Suter,  and R.J. Wallace, “Indirectly driven, high-growth Rayleigh-Taylor  implosions on Nova”, J. Quant. Spectrosc. Radiat. Transfer 54, 245 (1995). 

69. J. D. Colvin, “Double Shock-Induced Turbulence”, Proc. 3rd Intern’l  Workshop on the Physics of Compressible Turbulent Mixing, Abbé de  Royaumont, France, pp. 97-102 (CEA, Paris, 1991).

70. J. D. Colvin, C. K. Mitchell, J. R. Grieg, D. P. Murphy, R. E. Pechacek, and  M. Raleigh, “An Empirical Study of the Nuclear Explosion-Induced  Lightning Seen on IVY-MIKE”, J. Geophys. Res. – Atmospheres 92(D5),  5696-5712 (1987). 

71. J. D. Colvin, “On Evolutionary Models for SNI Progenitor Stars”, in  Cataclysmic Variables and Related Objects, eds: M Livio and G. Shaviv,  pp. 143-148 (D. Reidel Pub. Co., Dordrecht, Holland, 1983). 

72. J. D. Colvin, H. M. Van Horn, S. G. Starrfield, and J. W. Truran, “On the  Enhancement of CNO Nuclei in Nova Progenitors”, Astrophysical Journal 212, pp. 791-799 (1977). 

73. A. G. Petschek, S. A. Colgate, and J. D. Colvin, “Stimulated Compton  scattering and quasar luminosity”, Astrophysical Journal 209, pp. 356-361  (1976). 

74. J. D. Colvin, “A Quasi-Statistical Analysis of Absorption-Line Redshifts in  4c 05.34”, Astrophysical Journal 202, pp. 303-305 (1975). 

75. S. A. Colgate, J. D. Colvin, and A. G. Petschek, “Luminosity of quasi-stellar  objects”, Astrophysical Journal 197, pp. L105-L108 (1975). 

76. J. D. Colvin, “On the Significance of the Cerenkov Process in Quasi-Stellar  Objects”, Astrophysical Journal 190, pp. 515-520 (1974). 

77. E. E. Jaramillo and J. D. Colvin, “Transient Waves in a Voigt Medium”, J.  Geophys. Res. 75/29, pp. 5767-5773 (1970).