Publications


1981 - Present


  1. L.A. Slobozhanin and J.I.D. Alexander, Universal stability diagrams for disconnected capillary surfaces, in press, Physics of Fluids, (2003).
  2. J.I.D. Alexander and L.A. Slobozhanin, “Stability of disconnected free surfaces of a capillary liquid: a review” in press, Microgravity Science and Technology, (2003).
  3. L.A. Slobozhanin and J.I.D. Alexander, “On the stability of double bubbles and drops,” J. Colloids and Interface Science 262, 212-220, (2003). (PDF)
  4. N. J. Georgiadis, J.I.D. Alexander, and E. Reshotko,, A hybrid RANS/LES method for compressible mixing layer simulations,” AIAA Journal Vol. 41, 218-229, (2003). (PDF)
  5. J. P. Kizito, J.I.D. Alexander and M. A. Banish, Transient effects in Diffusion Measurements, Journal of Thermophysics and Heat Transfer, 17, 186-192, (2003).
  6. Y.Y. Khine, R.M. Banish and H.J.D. Alexander, “Convective contamination in self-diffusivity experiments with an applied magnetic field,” J. Crystal Growth, 250, 2734-278 (2003).
  7. M.P. Mahajan, M. Tsige, S. Zhang, J. I. D. Alexander, P.L. Taylor, and Charles Rosenblatt, “Resonance behavior of liquid bridges under axial and lateral oscillating total body forces,” Experiments in Fluids 33, 503-507, (2002).
  8. R.M. Banish, L.B.J. Albert, T.L. Pourpoint, J.I.D. Alexander and R.F. Sekerka, “Mass and thermal diffusivity algorithms - Reduced algorithms for mass and thermal diffusivity determinations,” Ann. N.Y. Acad. Sci., 974 , 146-156, (2002).
  9. Y.-Y. Khine, M. A. Banish and J.I.D. Alexander, Convective effects during diffusivity measurements in liquids with an applied magnetic field, International Journal of Thermophysics, 23, 649-664, (2002).
  10. N. Bhat, M.R. Dodge, J.I.D. Alexander, L.A. Slobozhanin, P.L. Taylor and C. Rosenblatt, “Stability of connected cylindrical liquid bridges”, Physical Review E, 65. 026306- (2002).
  11. N. E. Daidzic, J.I.D. Alexander and C.A. Camardo, “Some aspects of the fluid flow in a porous media in microgravity conditions for space plant production systems,” Mag. Resonance Imaging, 19, 593-59, (2001).
  12. L. A. Slobozhanin, J. I. D. Alexander and V. Patel, “The stability margin for weightless liquid bridges” Physics of Fluids, 14, 209-224, (2002). (PDF)
  13. Bhim. S. Singh, F. Kohl and J. Iwan Alexander, “Going with the flow: Microgravity Fluid Physics”, Aerospace America, pp. 20-22, (October 2001).
  14. J. P. Garandet, J.I.D. Alexander, S. Corre and J.J. Favier, Composition Variations induced by g-jitter in Bridgman Growth of Sn-Bi Alloys in microgravity, J. Crystal Growth, 226, 543-554, (2001).
  15. J. Meseguer, J.M. Perales and J.I.D. Alexander “A perturbation analysis of the stability of long liquid bridges between almost circular supporting disks”, Physics of Fluids, 13, 2724-2727, (2001).
  16. L. A. Slobozhanin, J.I.D. Alexander “Stability of disconnected free surfaces in a cylindrical container under zero gravity: simple cases” Physics of Fluids, 12, 2800-2808, (2000). (PDF)
  17. R. M. Banish, J.I.D. Alexander and L.B. Jalbert, Experimental confirmation of the insensitivity of mass diffusion measurements to blockages and voids along the diffusion path” Rev. Sci. Instr., 71, 4497-4501, (2000).
  18. F. Zayas, J.I.D. Alexander and J. Meseguer, On the stability of slender nonaxisymmetric liquid bridges, Physics of Fluids, Physics of Fluids, 12, 979-985, (2000). (PDF)
  19. P. Vekilov and J.I.D. Alexander, Dynamics of layer growth in protein crystallization, Chemical Reviews, 100, 2061 -2090, (2000). (PDF)
  20. A. I. Fedoseyev and J.I.D. Alexander, Investigation of vibrational control of convective flows in Bridgman melt growth configurations, J. Crystal Growth, 211, 34-42, (2000).
  21. M.P. Mahajan, M. Tsige, S. Zhang, J. I.D. Alexander, P. L. Taylor, and C. Rosenblatt, “Collapse Dynamics of Liquid Bridges Investigated by Time-Varying Magnetic Levitation,” Physical Review Letters, 84, 203-398, (2000). (PDF)
  22. L. A. Slobozhanin, J.I.D. Alexander and A. I. Fedoseyev, “Shape and stability of doubly connected axisymmetric free surfaces in a cylindrical container,” Physics of Fluids, 12, 3668-3777, (1999). (PDF)
  23. L. A. Slobozhanin, J.I.D. Alexander and V. Rakov, “Contactless directional solidification,” J. Crystal Growth, 207, 127-137, (1999).
  24. J.I.D. Alexander and R.M. Banish, " Modeling g-sensitivity of low-gravity experiments,” Microgravity Science and Technology, 9, 90-95, (1999) .
  25. L. A. Slobozhanin, J.I.D. Alexander and A. I. Fedoseyev, “Shape and stability of doubly connected axisymmetric free surfaces in a cylindrical container,” Physics of Fluids, 12, 3668-3777, (1999).
  26. L. A. Slobozhanin, J.I.D. Alexander and V. Rakov, “Contactless directional solidification,” J. Crystal Growth, 207, 127-137, (1999).
  27. J.I.D. Alexander and R.M. Banish, " Modeling g-sensitivity of low-gravity experiments,” Microgravity Science and Technology, 11, 90-95, (1999).
  28. L. A. Slobozhanin, and J.I.D. Alexander, “Combined effect of disk inequality and axial gravity on axisymmetric liquid bridge stability,” Physics of Fluids, 10 (1998) 2473-2488.
  29. D.V. Lyubimov, T.P. Lyubimova, J. Iwan D. Alexander and N. Lobov, “On the Boussinesq approximation for fluids systems with deformable interfaces,” Advances in Space Research 22, 1159-1169, (1998).
  30. L. A. Slobozhanin, and J.I.D. Alexander, “Combined effect of disk inequality and axial gravity on axisymmetric liquid bridge stability” Physics of Fluids, 10, 2473-2488, (1998).
  31. D.V. Lyubimov, T.P. Lyubimova, J. Iwan D. Alexander and N. Lobov, “On the Boussinesq approximation for fluids systems with deformable interfaces”, Advances in Space Research, 22 1159-1169, (1998).
  32. A. Lizée and J.I.D. Alexander, “Thermovibrational convection, parametric resonance and transitions to chaos”, Physical Review E, 56, 4152-4156, (1997).
  33. S. Hill and J.I.D. Alexander, “Modified Diffusion limited aggregation simulation of electrodeposition”, Physical Review E, 56, 4317-4327, (1997).
  34. F. Rosenberger, P.G. Vekilov, H. Lin and J.I.D. Alexander, “A rationale for system dependent advantages and disadvantages of solution crystal growth at low gravity”, Microgravity Science and Technology, (1997).
  35. J.I.D. Alexander, J.P. Garandet, J.J. Favier and A. Lizèe, “G-jitter effects on segregation during directional solidification of tin-bismuth in the MEPHISTO furnace facility”, J. Crystal Growth, 178, 657-661, (1997).
  36. L. Slobozhanin, and J.I.D. Alexander, “Stability of an isorotating liquid zone in an axial gravity field”, Physics of Fluids, 9, 1880-1892, (1997).
  37. L. Slobozhanin, J.I.D. Alexander and A. Resnick, “Bifurcation of the equilibrium states of a weightless liquid bridge” , Physics of Fluids, 9, 1893-1905, (1997).
  38. J.I.D. Alexander, S. Delafontaine, A. Resnick, and W.C. Carter, “Stability of nonaxisymmetric liquid bridges, Microgravity Science and Technology”, 9, 193-200, (1997).
  39. J.I.D. Alexander, J.-F. Ramus and F. Rosenberger, “Numerical simulations of the convective contamination of diffusivity measurements in liquids”, Microgravity Science and Technology, 9, 158-162, (1997).
  40. A. Resnick and J.I.D. Alexander, “An apparatus for the liquid bridge experiments, Review of Scientific instruments”, 68, 1495-1500, (1997).
  41. A. Fedoseyev and J.I.D. Alexander, “An inverse finite element method for pure and binary solidification problems”, J. Computational Physics, 130, 243-255, (1997).
  42. J.I.D. Alexander, Y. Zhang, S. Delafontaine and A. Fedoseyev, “Numerical Simulation of Liquid Bridge Dynamics and Statics”, in Numerical Methods in Heat and Mass Transfer Problems (Institute for Problems in Mechanics, Russian Academy of Sciences, Moscow, pp.109-135, (1997).
  43. P. G. Vekilov, J.I.D. Alexander and F. Rosenberger, “Response of layer dynamics in the mixed kinetics-bulk transport regime”, Physical Review E, 54, 6650-6660, (1996).
  44. J.P. Garandet, S. Corre, S. Gavoille, J.J. Favier and J.I.D. Alexander, “On the effect of gravity perturbations on composition profiles during Bridgman crystal growth in space”, J. Crystal Growth, 165, 471-481, (1996).
  45. J.I.D. Alexander, “Response of crystal growth experiments to time-dependent residual acceleration”, Lecture Notes in Physics Vol. 464, Eds. L. Ratke, H. Walter and B. Feuerbacher (Springer Verlag, Berlin, 95-105, (1996).
  46. J.I.D. Alexander, “Estimation of experiment sensitivity to residual acceleration”, Microgravity Quarterly, 5, 23-28, (1995).
  47. H. Lin, F. Rosenberger, J.I.D. Alexander and A. Nadarajah, “Convective-diffusive transport in protein crystal growth”, J. Crystal Growth, 151, 153-162, (1995).
  48. M.J.B. Rogers, B. P. Matisak and J.I.D. Alexander, Venting force contributions to accelerations on USML-1, Microgravity Science and Technology, 7, 293-297, (1995).
  49. J.I.D. Alexander, Lattice Models, in Science and Technology of Crystal, Kluwer, pp. 81-95, (1995).
  50. J. Meseguer, M.A. González and J.I.D. Alexander, “Dynamic stability of long axisymmetric liquid bridges”, Microgravity Science and Technology, 7, 234-242, (1994).
  51. Y.Q. Zhang and J.I.D. Alexander, “A Chebyshev collocation method for heat transfer, interface shape and convection during directional solidification”, International Journal of Numerical Methods for Heat and Fluid Flow, 4, 115-129, (1994).
  52. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “Eutectic and off-eutectic growth patterns”, Materials Science and Engineering, A178, 233-238, (1994).
  53. P. Larroude, J. Ouazzani and J.I.D. Alexander, “Symmetry breaking flow transitions and oscillatory flows in a 2D directional solidification model,” European Journal of Mechanics B/Fluids, 13, 353-381, (1994).
  54. J.I.D. Alexander, “Residual gravity jitter effects on fluid processes”, Microgravity Science and Technology, 7, 131-136 , (1994).
  55. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “Monte Carlo studies of the interdependence of crystal growth morphology, growth kinetics and bulk transport”, Faraday Discussions, 95, 85-95, (1993).
  56. M.J.B. Rogers, J.I.D. Alexander and J. Schoess, “Detailed analysis of Honeywell In-Space accelerometer data - STS-32”, Microgravity Science and Technology , 6, 28-35, (1993).
  57. R. Wolf, M.J.B. Rogers and J.I.D. Alexander, “A residual acceleration data analysis and management system”, Advances in Space Research, 13, (7)256-(7)265, (1993).
  58. A.J. Watkinson and J.I.D. Alexander, “Castile microfolding”, in Carlsbad Region, New Mexico and West Texas, New Mexico Geological Society Road Log, pp. 14-16, (1993).
  59. J.I.D. Alexander, R.-F. Xiao and F. Rosenberger, “Modelling growth morphologies on different length scales”, Materials Research Society Symposium Proceedings Vol. 278, 269-280, (1992).
  60. J.P. Pulicani, S. Krukowski, J.I.D. Alexander, J. Ouazzani, and F. Rosenberger, “Convection in an asymmetrically heated cylinder,” International Journal of Heat and Mass Transfer, 35, 2119-2130, (1992).
  61. F. Rosenberger, J.I.D. Alexander and W.Q. Jin, " Gravimetric capillary method for kinematic viscosity measurements, " Review of Scientific Instruments, 63, 4196-4199, (1992).
  62. Y. Q. Zhang and J. I. D. Alexander “Surface tension and buoyancy-driven flow in a nonisothermal liquid bridge”, International Journal of Numerical Methods in Fluids, 14, 197-216, (1992).
  63. A. Nadarajah, F. Rosenberger and J.I.D. Alexander, “Effects of buoyancy-driven flow and thermal boundary conditions on physical vapor transport”, Journal of Crystal Growth, 118, 49-59, (1992).
  64. M.J.B. Rogers and J.I.D. Alexander, “Residual acceleration data analysis for spacelab missions,” Microgravity Science and Technology, 5, 43-49, (1992).
  65. M.J.B. Rogers and J.I.D. Alexander, “Analysis of Spacelab 3 residual acceleration data,” AIAA Journal of Spacecraft and Rockets, 28, 52-59, (1992).
  66. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “Microscopic growth morphologies in a binary system”, Physical Review A, 45, R571-574, (1992).
  67. J.I.D. Alexander, J. Ouazzani, S. Amiroudine and F. Rosenberger, “Analysis of low gravity tolerance of Bridgman-Stockbarger crystal growth. II: transient accelerations,” Journal of Crystal Growth, 113, 21-38. (1991).
  68. J.I.D. Alexander, S. Amiroudine, J. Ouazzani and F. Rosenberger, “Numerical analysis of the sensitivity of crystal growth experiments to spacecraft residual acceleration,” Microgravity Science and Technology , 4, 130-131, (1991). *extended abstract; Full article in: Microgravity Fluid Mechanics ed. H.J. Rath, Proceedings of the IUTAM Symposium, Bremen, Germany (Springer Verlag, Berlin, 1991) pp. 297-305.
  69. J.I.D. Alexander and Y.Q. Zhang, “The sensitivity of a nonisothermal liquid bridge to residual acceleration,” Microgravity Science and Technology , IV, 128-129, (1991). *extended abstract; Full article in: Microgravity Fluid Mechanics, ed. H.J. Rath, Proceedings of the IUTAM Symposium, Bremen, Germany (Springer Verlag, Berlin, 1991) pp. 167-174.
  70. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “Simulation of surface morphologies in crystal growth from the vapor”, Journal of Crystal Growth, 109, 43-49, (1991).
  71. R. F. Xiao, J.I.D. Alexander and F. Rosenberger, “Growth morphologies of crystal surfaces” Physical Review A 43, 2977- 2992, (1991).
  72. M.J.B. Rogers and J. I.D. Alexander, “A strategy for residual acceleration data and reduction,” Advances in Space Research, 11, (7)5-(7)8, (1991).
  73. J.I.D. Alexander, “Microgravity experiment sensitivity to residual accelerations: A review,” Microgravity Science and Technology,3, No. 2, 52-68, (1990).
  74. J. I.D. Alexander and F. Rosenberger, “Bridgman crystal growth in low gravity: a scaling analysis,”, in Progress in Low-Gravity Fluid Dynamics and Transport Phenomena, (AIAA, Washington D.C.) J. Koster and R. Sani, eds., pp. 87-117, (1990).
  75. F. Rosenberger, J.I.D. Alexander, A. Nadarajah and J. Ouazzani, “Influence of residual gravity on crystal growth processes”, Microgravity Science and Technology , 3, 162-164, (1990).
  76. A. Nadarajah, F. Rosenberger and J. I.D. Alexander, “Modelling the solution growth of TGS Crystals in low gravity”, Journal of Crystal Growth, 104, 218-232, (1990).
  77. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “Growth morphology with anisotropic growth kinetics,” Journal of Crystal Growth, 100, 313-329, (1990).
  78. Y. Q. Zhang and J.I.D. Alexander, Sensitivity of liquid bridges to axial vibration, Physics of Fluids A, 2, 1966-1974, (1990).
  79. J.I.D. Alexander, J. Ouazzani, S. Amiroudine and F. Rosenberger, “Analysis of the low gravity tolerance of Bridgman-Stockbarger crystal growth. I: Steady and impulse-type accelerations,” Journal of Crystal Growth, 97, 285-302, (1989).
  80. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “Morphological evolution of crystals growing in the presence of a uniform drift: A Monte Carlo simulation,” Physical Review A, 39, 6397-6401, (1989).
  81. J.I.D. Alexander, J. Ouazzani and F. Rosenberger, “Response of convective-diffusive transport to spatial and temporal variations in effective gravity”, in Drops and Bubbles: The Third International Colloquium, Monterey California, September 1988 (AIP, New York, 1989).
  82. A. Ecker, D.O. Frazier and J.I.D. Alexander, “Fluid flow in the melt of solidifying monotectic alloys,” Metallurgical Transactions A, 20 , 2517-2527, (1989).
  83. J.I.D. Alexander and C.A. Lundquist, “Motions in fluids caused by microgravitational accelerations and their modification by relative rotation,” AIAA Journal, 25, 34-39, (1988).
  84. J.I.D. Alexander, Oblique flow onto a growing crystal interface: An exact solution, Journal of Crystal Growth, 89, 251-256, (1988).
  85. G. B. McFadden, S. R. Coriell and J.I.D. Alexander, “Hydrodynamic and free boundary instabilities,” Communications on Pure and Applied Mathematics, Vol. XLI 683-706, (1988).
  86. R.-F. Xiao, J.I.D. Alexander and F. Rosenberger, “The morphological evolution of a growing crystal,” Physical Review A, 38, 2447-2456, (1988).
  87. J.I.D. Alexander and A.J. Watkinson, “Microfolding in the permian Castille formation - an example of geometric systems in multi-layer folding,” Bulletin of the Geological Society of America 101, 742-750, (1988).
  88. J.I.D. Alexander and C.A. Lundquist, “Residual motions caused by microgravitational accelerations,” Journal of Astronautical Sciences, 35, 193-211, (1987).
  89. M. Radcliffe, M.C. Drake, G. Zvan, W.W. Fowlis, J.I.D. Alexander, G.D. Roberts, J. K. Sutter and E. Bergman, “Fluid flow in low earth orbit,” Polymer Preprints, 28, 463-464, (1987).
  90. W.C. Johnson and J.I.D. Alexander, “Interfacial conditions for thermomechanical equilibrium in two-phase solid systems,” Journal of Applied Physics, 59, 2735-2746, (1986).
  91. J.I.D. Alexander, D.J. Wollkind and R.F. Sekerka, “A weakly non-linear stability analysis of the solidification of a dilute binary alloy,” Journal of Crystal Growth, 79, 849-865, (1986).
  92. J.I.D. Alexander and W.C. Johnson, “Thermomechanical equilibrium in solid-fluid systems with curved interfaces,” Journal of Applied Physics, 58, 816-824, (1985).
  93. J.I.D. Alexander, P.H. Leo, and R.F. Sekerka, “The elastic-fields associated with a perturbed cylindrical inclusion,” Acta Metallurgica, 33, 975-983, (1985).
  94. P.H. Leo, J.I.D. Alexander and R. F. Sekerka, “The elastic-fields associated with a perturbed spherical inclusion,” Acta Metallurgica, 33, 985-989, (1985).
  95. D. J. Wollkind and J.I.D. Alexander, “A Newtonian fluid model for the onset of plane folding in a single rock layer with surface tension effects,” International Journal of Math. Modelling, 2, 319-384, (1981).
  96. D. J. Wollkind and J.I.D. Alexander, “Kelvin-Helmholtz and Rayleigh-Taylor instabilities in Newtonian fluid models of rock folding,” SIAM J. of Applied Math., 42, 1276-1295, (1981).


Publications in Conference Proceedings


  1. Fred J. Kohl, Bhim S. Singh, J. Iwan Alexander, Nancy J. Shaw, Myron E. Hill and Frank J. Gati, “The NASA microgravity fluid physics program – knowledge for use on earth and future space missions,” Proceedings of the 53rd International Astronautical Congress: TheWorld Space Congress, IAC-02-T.4.02, October 10-19, Houston, Texas, (2002).
  2. N. J. Georgiadis, J.I.D. Alexander, and E. Reshotko, “Investigation of a compressible turbulent mixing layer using a hybrid RANS/LES Method,” 15th AIAA computational fluid dynamics conference, June 11-14, (2001), Anaheim, CA.
  3. N. J. Georgiadis, J.I.D. Alexander, and E. Reshotko,, “Development of a hybrid RANS/LES method for compressible mixing layer simulations,” AIAA Paper 2001-0289, (January 2001).
  4. J.I.D. Alexander and L.A. Slobozhanin, “Stability of disconnected free surfaces of a capillary liquid: a review” AIAA Paper No. 2001-1070, 39th AIAA Aerospace Sciences Meeting & Exhibit 8-11, (January 2001) / Reno, NV.
  5. J.I.D. Alexander and B. Singh, “Results of recent fluid physics and transport phenomena space flight experiments” Proceedings of the Space Technology and Applications International Forum (STAIF-2000), (Jan. 30th-Feb. 3rd, 2000), Albuquerque, New Mexico.
  6. B. S. Singh and J.I.D. Alexander, Microgravity Fluid Physics and Transport Phenomena Experiments Planned aboard the International Space Station, Proceedings of the Space Technology and Applications International Forum (STAIF-2000), (Jan. 30th-Feb. 3rd, 2000), Albuquerque, New Mexico.
  7. J. P. Kizito, J. I. D. Alexander, and R. M. Banish, Transient effects on diffusion measurements, Proceedings of the 38th Aerospace Sciences Meeting, (January 10-13, 2000) , Reno NV , 2000. AIAA Paper 2000-1017.
  8. B. S. Singh and J.I.D. Alexander, Microgravity Fluid Physics and Transport Phenomena Research: An overview of Recent Accomplishments-I Dynamics and Instabilities, 38th Aerospace Sciences Meeting, (January 10-13, 2000), Reno NV, 2000. AIAA Paper 2000-0303.
  9. L. A. Slobozhanin, J.I.D. Alexander and A. I. Fedoseyev, Doubly connected axisymmetric free surfaces in a cylindrical container: shape, stability and application, AIAA Paper No. 99-1029 (1999).
  10. A. I. Fedoseyev and J.I.D. Alexander, Thermovibrational flow in Bridgman melt growth configurations, AIAA Paper No. 99-0839 (1998).
  11. D.V. Lyubimov, T.P. Lyubimova, J.I.D. Alexander and S.V. Shklyaev, Long-wave instability of a differentially heated two-layer system with a deformable interface, Proceedings of the Third International Conference on Multiphase Flow, ICMF’98, Lyon, France, (June 8-12, 1998).
  12. R. M. Banish, L. Jalbert and J. I.D. Alexander, Self-diffusion in liquid elements, proceedings of the 1998 NASA Microgravity Materials Science Conference, Von Braun Center, Huntsville, Alabama, USA, (July 14-16, 1998).
  13. R. M. Banish and J.I.D. Alexander, Thermophysical property measurements of Te-based II-VI semiconductors, Proceedings of the 1998 NASA Microgravity Materials Science Conference, Von Braun Center, Huntsville, Alabama, USA, (July 14-16, 1998).
  14. J.I.D. Alexander, J.-J. Favier, J.-P. Garandet, Study of Interesting Solidification Phenomena on the Ground and in Space (MEPHISTO), Proceedings of the 1998 NASA Microgravity Materials Science Conference, Von Braun Center, Huntsville, Alabama, USA, (July 14-16, 1998).
  15. J.I.D. Alexander, L. A. Slobozhanin, A.H. Resnick, J.-F. Ramus and S. Delafontaine, “Stability limits and dynamics of nonaxisymmetric liquid bridges,” Proceedings of the 4th Microgravity Fluid Physics & Transport Phenomena Conference, (August 12-14, 1998), Cleveland, OH.
  16. A. Resnick and J.I.D. Alexander, “A coherent Fourier imaging system for liquid bridge experiments, Optical Pattern Recognition VIII, (22-23 April, 1997), SPIE Proceedings Reprints Vol. 3073, 469-477, (1997).
  17. J. Iwan D. Alexander, Impulses, Vibrations and random disturbances: Consequences for convective diffusive transport and fluid interfaces in low gravity experiments AIAA Paper No. 96-2073, Proc. 27th AIAA Fluid Dynamics Conference, June 17-20, New Orleans, La., (1996).
  18. L. A. Slobozhanin, J.I.D. Alexander and A. Resnick, “Stability of Liquid bridges under reduced gravity,” Proceedings of the 2nd Symposium on Fluids in Space, Naples, Italy, April 22-26, 431-439, (1996).
  19. A. Lizee and J.I.D. Alexander, “Transitions to chaos during vibrational forcing of a differentially heated cavity,” Proceedings of the 2nd Symposium on Fluids in Space, Naples, Italy, April 22-26, 413-417, (1996).
  20. J. Ouazzani, J.C. Lo Pinto, R.T. Matthews and J.I.D. Alexander, A numerical study of 2D and 3D thermocapillary flow in rectangular boxes under different gravity conditions, Proceedings of the 2nd Symposium on Fluids in Space, Naples, Italy, April 22-26, 167-173, (1996).
  21. J.I.D. Alexander and M.J.B. Rogers, “Passive accelerometer system: Measurements on STS-50 (USML-1),” Proceedings of the USML-1/USMP-1 L+1 Conference, Huntsville, September, 1993, ed. D.O. Frazier, NASA CP 3773, (1994).
  22. B.P. Matisak , M.J.B. Rogers and J.I.D. Alexander, Analysis of the Passive Accelerometer System Measurements during USML-1,” 32nd Aerospace Sciences Meeting, (January 10-13, 1994), Reno NV, 1994. AAIA 94-0434, (1994).
  23. J.I.D. Alexander, H. Cordier, J. Ouazzani and Y. Zhang, Numerical Simulation of Thermocapillary flow under Zero and Low Gravity Conditions, AIAA Paper no. 93-0254, 31st Aerospace Sciences Meeting, Reno, Nevada, (January, 1993).
  24. J.I.D. Alexander, M.J.B. Rogers and B.P. Matisak, “Passive accelerometer system: Measurements on STS-50,” Proceedings of the USML/USMP L+1 Meeting, Huntsville, Alabama, (September 1993).
  25. J.I.D. Alexander, H. Cordier, J. Ouazzani and Y. Zhang, Numerical Simulation of Thermocapillary flow under Zero and Low Gravity Conditions, AIAA Paper no. 93-0254, 31st Aerospace Sciences Meeting, Reno, Nevada, (1993).
  26. P. Larroude, J. Ouazzani and J.I.D. Alexander, “Flow Transitions in a 2D Directional Solidification Model,” Proceedings of the 6th Material Science Symposium, European Space Agency, Brussels, Belgium, (1992).
  27. M.J.B. Rogers and J.I.D. Alexander, “Experiment Specific Processing of Residual Acceleration Data,” Proceedings of the 30th Aerospace Sciences Meeting, (January 6-9, 1992), Reno, Nevada, AIAA paper 92-0244.
  28. M.J.B. Rogers and J.I.D. Alexander, “Cross Correlation of On-Orbit Residual Accelerations in Spacelab,” Proceedings of the 29th Aerospace Sciences Meeting, (January 7-10, 1991), Reno, Nevada, AIAA paper 91-0348.
  29. M.J.B. Rogers and J.I.D. Alexander, “Cross-Correlation Analysis of On-orbit residual Accelerations in Spacelab,” Proceedings of the 29th Aerospace Sciences Meeting, (January 7-10, 1991), Reno, Nevada, AIAA paper 91-0348.
  30. M.J.B. Rogers and J.I.D. Alexander, “A Strategy for Residual Acceleration Data Reduction and Dissemination,” Proceedings of the 28th COSPAR Plenary Meeting, Den Haag, Netherlands, (1990).
  31. A. Ecker, J.I.D. Alexander and D. Frazier, “Classification of Fluid Flow in Front of Solidifying Monotectic Alloys,” Proceedings of the 7th European Symposium on Materials Sciences under Microgravity Conditions, Oxford, England ,10-15 September 1989 (ESA SP-295 January 1990).
  32. J.I.D. Alexander and C.A. Lundquist, “Motions in Fluids Caused by Microgravitational Accelerations and their Modification by Relative Rotation,” Proceedings of the AIAA 25th Annual Aerospace Science Meeting, Reno, Nevada, USA, (January 12-16, 1987).
  33. J.I.D. Alexander, J. Ouazzani and F. Rosenberger, Response of Convective-Diffusive Transport to Spatial and Temporal Variations in Effective Gravity, AIP Conference Proceedings 197, Drops and Bubbles: The Third International Colloquium, Monterey California, September 1988 (AIP, New York, 1989).
  34. J.I.D. Alexander and J. Ouazzani, “A Pseudo-Spectral Collocation Method Applied to the Problem of Convective Diffusive Transport in Fluids Subject to Unsteady Residual Acceleration,” Numerical Methods in Laminar and Turbulent Flow, C. Taylor, R. Sani and P. Gresho eds., Vol. 6 Part 2 (Pineridge Press, Swansea) p. 1043, (1989).
  35. A. Ecker, J.I.D. Alexander and D.O. Frazier, “Simultaneous Temperature and Concentration Measurement in Front of Solidifying Systems Using the Two Wavelength Holographic Technique,” Proceedings of the 6th Material Science Symposium, European Space Agency, Bordeaux, France, 2-5 December, 1986, (ESA SP-256, February 1987) p. 309.
  36. J.I.D. Alexander and C.A. Lundquist, “Microgravity and Its Effects on Residual Motions in Fluids,” Proceedings of the Measurement and Characterization of the Acceleration Environment on Board Space Station Workshop, Guntersville Alabama, August 11-14, (Teledyne-Brown Engineering, 1986).
  37. J.I.D. Alexander and A.J. Watkinson, “The Importance of Geometric Systems in Multilayer Folding,” Proceedings of the Tectonic Studies Group Conference on Periodicity in Geologic Structures, Nottingham, U.K., J. Structural Geology 1, p. 95, (1978).