Module 4: Interferometry
  References
 


51. K. Onuma, K. Tsukamoto and I. Sunagawa, Role of Buoyancy Driven Convection in Aqueous Solution Growth: A Case Study of Barium Nitrate Crystals, JCG, Vol. 89, 177-188, 1988.

52. K. Onuma, K. Tsukamoto and I. Sunagawa, Effect of Buoyancy Driven Convection Upon the Surface Microtopographs of Barium Nirtate and Cadmium Iodide crystals, JCG, Vol. 98, 384-390, 1989.

53. K. Onuma, K. Tsukamoto and I. Sunagawa, Growth Kinetics of K-Alum Crystals in Relation to the Surface Supersaturations, JCG, Vol. 100, 125-132, 1990.

54. K. Maiwa, K. Tsukamoto and I. Sunagawa, Activities of Spiral Growth Hillocks on the (111) Faces of Barium Nitrate Crystals Growing in an Aqueous Solution, JCG, Vol. 102, pp 43-53, 1990.

55. K. Onuma, K. Tsukamoto and S. Nakadate, Application of Real Time Phase Shift Interferometer to the Measurement of Concentration Field, JCG, Vol. 129, 706-718, 1993.

56. K. Onuma, T. Kameyama and K. Tsukamoto, In-situ Study of Surface Phenomena by Real Time Phase Shift Interferometry, JCG, Vol. 137, 610-622, 1994.

57. I. Sunagawa, K. Tsukamoto, K. Maiwa and K. Onuma, Growth and Perfection of Crystals from Aqueous Solution: Case Studies on Barium Nitrate and K-Alum, Prog. Crystal Growth and Charact., Vol. 30, pp. 153-190, 1995.

58. A.V. Bobylev and L.N. Rashkovich, An Interference Method of Measuring the Rates of Crystal Growth in Solution, and its Application to , Sov. Phys. Crystallogr., Vol. 25, No. 2, pp. 255-257, 1980.

59. L.N. Rashkovich, V.T. Leshchenko and N.M. Sadykov, Growth Kinetics of TGS, Sov. Phys. Crystallogr., Vol. 27, No.5, pp. 580-585, 1982.

60. L.N. Rashkovich, V.T. Leshchenko, A.T. Amandosov and V.A. Koptsik, Interferometric Investigation of the Growth Rates of the 001 Faces of a Triglycine Sulphate Crystal at Various Supersaturations and Temperatures, Sov. Phys. crystallogr., Vol. 28, No. 4, pp. 454-458, 1983.

61. L.N. Rashkovich, A.A. Mkrtchyan and A.A. Chernov, Optical Interference Investigation of Growth Morphology and Kinetics of (100) Face of ADP from Aqueous Solution, Sov. Phys. crystallogr., Vol. 30, No. 2, pp. 219-223, 1985.

62. L.N. Rashkovich and O.A. Shustin, New Optical Interference Methods for Studying the Kinetics of Crystallization in Solution, Sov. Phys. Usp., Vol. 30, No. 3, pp. 280-283, 1987.

63. L.N. Rashkovich and B. Y. Shekunov, Hydrodynamic Effects in Growth of ADP and KDP Crystals in Solution. I. Growth Kinetics, Sov. Phys. Crystallogr., Vol. 35, No.1, pp. 96-99, 1990a.

64. L.N. Rashkovich, B. Y. Shekunov and Y.G. Kuznetsov, Hydrodynamic Effects in Growth of ADP and KDP Crystals in Solution. II. Morphological Stability of Faces, Sov. Phys. Crystallogr., Vol. 35, No. 1, pp. 99-102, 1990b.

65. Y. G. Kuznetsov, A.A. Chernov, P.G. Vekilov and I.L. Smol'skii, Kinetics of Growth of (101) Faces of KDP Crystals from Aqueous Solution, Sov. Phys. Crystallogr., Vol. 32, No. 4, pp. 584-587, 1987.

66. P.G. Vekilov and Y.G. Kuznetsov, Growth Kinetics Irregularities Due to Changed Dislocation Source Activity; (101) ADP Face, JCG, Vol. 119, pp. 248-260, 1992.

67. P.G. Vekilov, Elementary Processes of Protein Crystal Growth, Prog. Crystal Growth and Charact., Vol. 26, pp. 25-49, 1993.

68. R.I. Ristic, J.N. Sherwood and K. Wojciechowski, Assessment of the Strain in Small Sodium Chlorate Crystals and its Relation to Growth Rate Dispersion, JCG, Vol. 91, 163-168, 1988.

69. R.I. Ristic, J.N. Sherwood and K. Wojciechowski, The Assessment of Strain in Materials using Synchrotron Radiation Techniques and the Role of Strain in Growth Rate Dispersion, J. Crystal Growth, Vol. 144, 87-90, 1994.

70. S. Kosugi, K. Maeno and H. Honma, Measurement of Gas temperature Profile in Discharge Region of Excimer Laser with Laser Schlieren Method, Jpn. J. Appl. Physics, Vol. 32(3), pp 4980-4986, (1993).

71. J. Koreeda, H. Yanagisawa, K. Maeno, H. Honma. S.A. Bystrov, V.I. Ivanov and F.V. Shugaev, Front Structures of Strong Shock waves in Air, Shock Waves, pp 263-268, 1995.

72. A.K. Agrawal, N.K. Butuk, R.G. Subramanyam and G. DeVon, Three Dimensional Rainbow Schlieren Tomography of a Temperature Field in Gas Flows, Appled Optics, Vol. 37(3), pp 479-485, 1998.

73. S.A. Bystrov, H. Honma, V.I. Ivanov, J. Koreeda, K. Maeno, F.V. Shugaev and H. Yanagisawa, Density Reconstruction from Laser Schlieren Signal in Shock Tube Experiments, Shock Waves, Vol. 8, pp 183-189, 1998.

74. G. Brown and A. Roshko, On Density Effects and Large Structures in Turbulent Mixing Layers, J. Fluid Mechanics, Vol. 64, pp 775-816, 1974.

75. M. Van Dyke, An Album of Fluid Motion, The Parabolic Press, California, 1982.

76. W. Schopf, J.C. Patterson and A.M.H. Brooker, Evaluation of the Shadowgraph Method for the convective Flow in a Side-heated Cavity, Experiments in Fluids, Vol 21, pp 331-340, 1996.

77. M.N. Darbhe and K. Muralidhar, Natural Convection Heat Transfer from a Discrete Protruding Surface, Int. Communications in Heat and Mass Transfer, Vol 23(3), pp 417-426, 1996.

78. D. Mishra, K. Muralidhar and P. Munshi, Performance Evaluation of Fringe Thinning Algorithms for Interferometric Tomography, Optics and Lasers in Engineering, Vol. 30, pp 229-249, 1998.

79. D. Mishra, K. Muralidhar and P. Munshi, Interferometric Study of Rayleigh-Benard Convection using Tomography with Limited Projection Data, Experimental Heat Transfer, Vol 12(2), pp 117-136, 1999a.

80. D. Mishra, K. Muralidhar and P. Munshi, Isotherms in a Horizontal Differentially Heated Cavity at Intermediate Rayleigh Numbers, International Communications in Heat and Mass Transfer, Vol. 26(5), pp 729-738, 1999b.

81. D. Mishra, K. Muralidhar and P. Munshi, A Robust MART Algorithm for Tomographic Applications, Numerical Heat Transfer B (Fundamentals) Vol. 35 (4), pp 485-506, 1999c.

82. D. Mishra, K. Muralidhar and P. Munshi, Interferometric Study of Rayleigh-Benard Convection at Intermediate Rayleigh Numbers, Fluid Dynamics Research, Vol. 25(5), pp 231-255, 1999d.

83. D.W. Robinson, Automatic Fringe Analysis with a Computer Image-processing System, Applied optics, Vol.22(14), pp 2169-2176, 1983.

84. S. Krishnaswamy, Algorithm for Computer Tracing of Interference Fringes, Applied optics, Vol. 30(13), pp 1624-1628, 1991.

85. K. Ramesh and R.P. Singh, Comparative Performance Evaluation of Various Fringe Thinning Algorithms in Photomechanics, Electronic Imaging, Vol. 4, pp 71-83, 1995.

86. W.R.J. Funnell, Image Processing Applied to the Interactive Analysis of Interferometric Fringes, Applied optics, Vol.20(18), pp 3245-3250, 1981.

87. R.C. Gonzalez and R.E. Woods, Digital Image Processing, Addison-Wesley Publishing Company, USA, 1993.

88. F. Natterer, The Mathematics of Computerized Tomography, John Wiley & Sons, New York, 1986.

89. B. Gebhart, Y. Jaluria, R.L. Mahajan and B. Sammakia, Buoyancy-induced Flows and Transport, Hemisphere Publishing Corporation, New York, 1988.

90. L. Lapidus and G.F. Pinder, Numerical Solution of Partial Differential Equations in Science and Engineering, John Wiley and Sons, New York, 1982.