Tom G. Mackay — Journal articles

  1. G.M. Bernacca, A.C. Fisher, T.G. Mackay and D.J. Wheatley, 'A dynamic in vitro method for studying bioprosthetic heart valve calcification,' Journal of Materials Science: Materials in Medicine 3 (1992), 293-298.

  2. G.M. Bernacca, A.C. Fisher, R. Wilkinson, T.G. Mackay and D.J. Wheatley, 'Calcification and stress distribution in bovine pericardial heart valves,' Journal of Biomedical Materials Research 26 (1992), 959-966.

  3. G.M. Bernacca, T.G. Mackay and D.J. Wheatley, 'In vitro calcification of bioprosthetic heart valves: report of a novel method and review of the biochemical factors involved,' Journal of Heart Valve Disease 1 (1992), 115-130.

  4. A.C. Fisher, G.M. Bernacca, T.G. Mackay, W.R. Dimitri, R. Wilkinson and D.J. Wheatley, 'Calcification modelling in artificial heart valves,' International Journal of Artificial Organs 15 (1992), 284-288.

  5. G.M. Bernacca, W.D. Dimitri, A.C. Fisher, T.G. Mackay and D.J. Wheatley, 'Chemical modification of bovine pericardium and its effect on calcification in the rat subdermal model,' Biomaterials 13 (1992), 345-352.

  6. D. Georgiadis, T.G. Mackay, A.W. Kelman, D.G. Grosset, D.J. Wheatley and K.R. Lees, 'Differentiation between gaseous and formed embolic materials in vivo. Application in prosthetic heart valve patients,' Stroke 25 (1994), 1559-1563.

  7. G.M. Bernacca, T.G. Mackay, R. Wilkinson and D.J. Wheatley, 'Calcification and fatigue failure in a polyurethane heart valve,' Biomaterials 16 (1995), 279-285.

  8. T.G. Mackay, D. Georgiadis, D.G. Grosset, A.W. Kelman, K.R. Lees and D.J. Wheatley, 'Transcranial Doppler ultrasound signals associated with prosthetic heart valves: an in vitro study,' Journal of Heart Valve Disease 4 (1995), 414-419.

  9. J.W. Fenner, T.G. Mackay, W. Martin and D.J. Wheatley, 'Laser profiling: a technique for the study of prosthetic heart valve leaflet motion,' Physiological Measurement 16 (1995), 181-193.

  10. T.G. Mackay, D. Georgiadis, D.G. Grosset, K.R. Lees and D.J. Wheatley, 'On the origin of cerebrovascular microemboli associated with prosthetic heart valves,' Neurological Research 17 (1995), 349-352.

  11. T.G. Mackay, D.J. Wheatley, G.M. Bernacca, A.C. Fisher and C.S. Hindle, 'A new polyurethane heart valve prosthesis: design, manufacture and evaluation,' Biomaterials 17 (1996), 1857-1863.

  12. D. Georgiadis, M. Kaps, J. Berg, T.G. Mackay, F. Dapper, A. Faichney, D.J. Wheatley and K.R. Lees, ' Transcranial Doppler detection of microemboli in prosthetic heart valve patients: dependency upon valve type and position,' European Journal of Cardio-thoracic Surgery 10 (1996), 253-258.

  13. T.G. Mackay, G.M. Bernacca, A.C. Fisher, C.S. Hindle and D.J. Wheatley, 'In vitro function and durability evaluation of a novel polyurethane heart valve prosthesis,' Artificial Organs 20 (1996), 1017-1025.

  14. D.G. Nabavi, D. Georgiadis, T. Mumme, C Schmid, T.G. Mackay, H.H. Scheld and E.B. Ringelstein, 'Clinical relevance of intracranial microembolic signals in patients with left ventricular assist devices,' Stroke 27 (1996), 891-896.

  15. G.M. Bernacca, T.G. Mackay and D.J. Wheatley, 'In vitro function and durability of a polyurethane heart valve: material considerations,' Journal of Heart Valve Disease 5 (1996), 538-542.

  16. D.G. Grosset, D. Georgiadis, A.W. Kelman, P. Cowburn, S. Stirling, K.R. Lees, A. Faichney, A. Mallison, R. Quin, I. Bone, L. Pettigrew, E. Brodie, T.G. Mackay and D.J. Wheatley, 'Detection of microemboli by transcranial Doppler ultrasound,' Texas Heart Institute Journal 23 (1996), 289-292.

  17. G.M. Bernacca, T.G. Mackay, R. Wilkinson and D.J. Wheatley, 'Polyurethane heart valves: fatigue failure, calcification and polyurethane structure,' Journal of Biomedical Materials Research 34 (1997), 371-379.

  18. M.L.J. Rose, G.A. Wright, T.G. Mackay, W. Martin and D.J. Wheatley, 'Correlation of radionuclide and optical tracer assessments of fluid flow in artificial ventricles,' Physiological Measurement 18 (1997), 171-182.

  19. A.W. Donn, G.M. Bernacca, T.G. Mackay, M.J. Gulbransen and D.J. Wheatley, 'Laser profiling of bovine pericardial heart valves,' International Journal of Artificial Organs 20 (1997), 436-439.

  20. G.M. Bernacca, T.G. Mackay, M.J. Gulbransen, A.W. Donn and D.J. Wheatley, 'Polyurethane heart valve durability: effects of leaflet thickness and material,' International Journal of Artificial Organs 20 (1997), 327-331.

  21. M.L.J. Rose, T.G. Mackay, W. Martin and D.J. Wheatley, 'Evaluation of four blood pump geometries: the optical tracer technique,' Proceedings of the Institute of Mechanical Engineers 204 (Part H) (2000), 371-383.

  22. M.L.J. Rose, T.G. Mackay and D.J. Wheatley, 'Evaluation of four blood pump geometries: fluorescent particle flow visualisation technique,' Medical Engineering and Physics 22 (2000), 201-214.

  23. W.S. Weiglhofer and T.G. Mackay, 'Numerical studies of the constitutive parameters of a chiroplasma composite medium,' Archiv für Elektronik und Übertragungstechnik (International Journal of Electronics and Communications) 54 (2000), 259-265.

  24. T.G. Mackay and W.S. Weiglhofer, 'Homogenization of biaxial composite materials: dissipative anisotropic properties,' Journal of Optics A: Pure and Applied Optics 2 (2000), 426-432.

  25. T.G. Mackay, A. Lakhtakia and W.S. Weiglhofer, 'Strong-property-fluctuation theory for homogenization of bianisotropic composites: formulation,' Physical Review E 62 (2000), 6052-6064. Erratum 63 (2001), 049901.

  26. T.G. Mackay and W.S. Weiglhofer, 'Homogenization of biaxial composite materials: nondissipative dielectric properties,' Electromagnetics 21 (2001), 15-26.

  27. T.G. Mackay and W.S. Weiglhofer, 'Homogenization of biaxial composite materials: bianisotropic properties,' Journal of Optics A: Pure and Applied Optics 3 (2001), 45-52.

  28. B. Michel, A. Lakhtakia, W.S. Weiglhofer and T.G. Mackay, 'Incremental and differential Maxwell Garnett formalisms for bi-anisotropic composites,' Composite Science and Technology 61 (2001), 13-18.

  29. T.G. Mackay, A. Lakhtakia and W.S. Weiglhofer, 'Ellipsoidal topology, orientation diversity and correlation length in bianisotropic mediums,' Archiv für Elektronik und Übertragungstechnik (International Journal of Electronics and Communications) 55 (2001), 259-265.

  30. T.G. Mackay, A. Lakhtakia and W.S. Weiglhofer, 'Homogenisation of similarly oriented, metallic ellipsoidal inclusions using the bilocally-approximated strong-property-fluctuation theory,' Optics Communications 197 (2001), 89-95.

  31. T.G. Mackay, A. Lakhtakia and W.S. Weiglhofer, 'Third-order implementation and convergence of the strong-property-fluctuation theory in electromagnetic homogenisation,' Physical Review E 64 (2001), 066616.

  32. W.S. Weiglhofer and T.G. Mackay, 'Needles and pillboxes in anisotropic mediums,' IEEE Transactions on Antennas and Propagation 50 (2002), 85-86.

  33. T.G. Mackay, A. Lakhtakia and W.S. Weiglhofer, 'Homogenisation of isotropic, cubically nonlinear, composite mediums by the strong-permittivity-fluctuation theory: third-order considerations,' Optics Communications 204 (2002), 219-228.

  34. T.G. Mackay, A. Lakhtakia and W.S. Weiglhofer, 'The strong-property-fluctuation theory for cubically nonlinear, isotropic chiral composite mediums,' Electromagnetics 23 (2003), 455-479.

  35. T.G. Mackay, 'Geometrically derived anisotropy in cubically nonlinear dielectric composites,' Journal of Physics D: Applied Physics 36 (2003) , 583-591.

  36. T.G. Mackay and A. Lakhtakia, 'Voigt wave propagation in biaxial composite materials,' Journal of Optics A: Pure and Applied Optics 5 (2003), 91-95.

  37. T.G. Mackay and A. Lakhtakia, 'Plane waves with negative phase velocity in Faraday chiral mediums,' Physical Review E 69 (2004), 026602.

  38. T.G. Mackay and A. Lakhtakia, 'Correlation length facilitates Voigt wave propagation,' Waves in Random Media 14 (2004), L1-L11.

  39. T.G. Mackay and A. Lakhtakia, 'Enhanced group velocity in metamaterials,' Journal of Physics A: Mathematical and General 37 (2004), L19-L24.

  40. A. Lakhtakia and T.G. Mackay, 'Infinite phase velocity as the boundary between positive and negative phase velocities,' Microwave and Optical Technology Letters 41 (2004), 165-166.

  41. T.G. Mackay and A. Lakhtakia, 'Negative phase velocity in a uniformly moving, homogeneous, isotropic, dielectric-magnetic medium,' Journal of Physics A: Mathematical and General 37 (2004), 5697-5711.

  42. T.G. Mackay and A. Lakhtakia, 'A limitation of the Bruggeman formalism for homogenization,' Optics Communications 234 (2004), 35-42. Erratum 282 (2009) 4028.

  43. T.G. Mackay, 'Remarks on 'A 2D-TLM model for electromagnetic wave propagation in Tellegen media',' Microwave and Optical Technology Letters 42 (2004), 344-345.

  44. T.G. Mackay, 'Depolarization volume and correlation length in the homogenization of anisotropic dielectric composites,' Waves in Random Media 14 (2004), 485-498. Erratum Waves in Random and Complex Media 16 (2006), 85.

  45. T.G. Mackay and A. Lakhtakia, 'Negative refraction in outer space?,' Current Science 86 (2004), 1593.

  46. A. Lakhtakia and T.G. Mackay, 'Towards gravitationally assisted negative refraction of light by vacuum,' Journal of Physics A: Mathematical and General 37 (2004), L505-L510. Corrigendum 37 (2004), 12093.

  47. A. Lakhtakia and T.G. Mackay, 'Size-dependent Bruggeman approach for dielectric-magnetic composite materials,' Archiv für Elektronik und Übertragungstechnik (International Journal of Electronics and Communications) 59 (2005), 348-351.

  48. T.G. Mackay, 'Plane waves with negative phase velocity in isotropic chiral mediums,' Microwave and Optical Technology Letters 45 (2005), 120-121. Erratum 47 (2005), 406.

  49. A. Lakhtakia, T.G. Mackay and S. Setiawan, 'Global and local perspectives of gravitationally assisted negative-phase-velocity propagation of electromagnetic waves in vacuum,' Physics Letters A 336 (2005), 89-96.

  50. T.G. Mackay, A. Lakhtakia and S. Setiawan, 'Gravitation and electromagnetic wave propagation with negative phase velocity,' New Journal of Physics 7 (2005), 75.

  51. T.G. Mackay, 'Linear and nonlinear homogenized composite mediums as metamaterials,' Electromagnetics 25 (2005), 461-481.

  52. T.G. Mackay, S. Setiawan and A. Lakhtakia, 'Negative phase velocity of electromagnetic waves and the cosmological constant,' European Physical Journal C 41 (Supplement 1) (2005), 1-4.

  53. A. Lakhtakia and T.G. Mackay, 'Reply to comment on 'Towards gravitationally assisted negative refraction of light by vacuum',' Journal of Physics A: Mathematical and General 38 (2005), 2545-2546.

  54. T.G. Mackay, A. Lakhtakia and S. Setiawan, 'Electromagnetic negative-phase-velocity propagation in the ergosphere of a rotating black hole,' New Journal of Physics 7 (2005), 171.

  55. T.G. Mackay, A. Lakhtakia and S. Setiawan, 'Electromagnetic waves with negative phase velocity in Schwarzschild-de Sitter spacetime,' Europhysics Letters 71 (2005), 925-931.

  56. T.G. Mackay and A. Lakhtakia, 'Negative phase velocity in a material with simultaneous mirror-conjugated and racemic chirality characteristics,' New Journal of Physics 7 (2005), 165.

  57. S. Setiawan, T.G. Mackay and A. Lakhtakia, 'A comparison of superradiance and negative-phase-velocity phenomenons in the ergosphere of a rotating black hole,' Physics Letters A 341 (2005), 15-21. Erratum 361 (2007), 534.

  58. T.G. Mackay and A. Lakhtakia, 'Negative phase velocity in isotropic dielectric-magnetic media via homogenization,' Microwave and Optical Technology Letters 47 (2005), 313-315.

  59. T.G. Mackay and A. Lakhtakia, 'Anisotropic enhancement of group velocity in a homogenized dielectric composite medium,' Journal of Optics A: Pure and Applied Optics 7 (2005), 669-674.

  60. T.G. Mackay, A. Lakhtakia and R.A. Depine, 'Uniaxial dielectric media with hyperbolic dispersion relations,' Microwave and Optical Technology Letters 48 (2006), 363-367.

  61. T.G. Mackay and A. Lakhtakia, 'Percolation thresholds in the homogenization of spheroidal particles oriented in two directions,' Optics Communications 259 (2006), 727-737.

  62. A. Lakhtakia and T.G. Mackay, 'Fresnel coefficients for a permittivity-permeability phase space encompassing vacuum, anti-vacuum, and nihility,' Microwave and Optical Technology Letters 48 (2006), 265-270.

  63. T.G. Mackay and A. Lakhtakia, 'Gravity-induced negative refraction of electromagnetic waves,' Current Science 90 (2006), 640-641.

  64. T.G. Mackay and A. Lakhtakia, 'Comment on 'Negative refraction at optical frequencies in nonmagnetic two-component molecular media',' Physical Review Letters 96 (2006), 159701.

  65. A. Lakhtakia and T.G. Mackay, 'Negative phase velocity in isotropic dielectric-magnetic media via homogenization: Part II,' Microwave and Optical Technology Letters 48 (2006), 709-712.

  66. A. Lakhtakia and T.G. Mackay, 'Dyadic Green function for an electromagnetic medium inspired by general relativity,' Chinese Physics Letters 23 (2006), 832-833.

  67. A. Lakhtakia and T.G. Mackay, 'Simple derivation of dyadic Green functions of a simply moving, isotropic, dielectric-magnetic medium,' Microwave and Optical Technology Letters 48 (2006), 1073-1074.

  68. T.G. Mackay and A. Lakhtakia, 'Correlation length and negative phase velocity in isotropic dielectric-magnetic materials,' Journal of Applied Physics 100 (2006), 063533.

  69. T.G. Mackay, A. Lakhtakia and S. Setiawan, 'Positive-, negative-, and orthogonal-phase-velocity propagation of electromagnetic plane waves in a simply moving medium,' Optik 118 (2007), 195-202.

  70. T.G. Mackay and A. Lakhtakia, 'On electromagnetics of an isotropic chiral medium moving at constant velocity,' Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences 463 (2007), 397-418. Corrigendum 463 (2007), 2399.

  71. A. Lakhtakia and T.G. Mackay, 'Electrical control of the linear optical properties of particulate composite materials,' Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences 463 (2007), 583-592.

  72. A.J. Duncan, T.G. Mackay and A. Lakhtakia, 'On the Bergman-Milton bounds for the homogenization of dielectric composite materials,' Optics Communications 271 (2007), 470-474.

  73. J. Cui and T.G. Mackay, 'Depolarization regions of nonzero volume in bianisotropic homogenized composites,' Waves in Random and Complex Media 17 (2007), 269-281.

  74. T.G. Mackay and A. Lakhtakia, 'Counterposition and negative refraction due to uniform motion,' Microwave and Optical Technology Letters 49 (2007), 874-876.

  75. T.G. Mackay and A. Lakhtakia, 'Concealment by uniform motion,' Journal of the European Optical Society - Rapid Publications 2 (2007), 07003.

  76. T.G. Mackay, 'On the effective permittivity of silver-insulator nanocomposites,' Journal of Nanophotonics 1 (2007), 019501.

  77. T.G. Mackay and A. Lakhtakia, 'Simultaneous negative- and positive-phase-velocity propagation in an isotropic chiral medium,' Microwave and Optical Technology Letters 49 (2007), 1245-1246.

  78. J. Cui and T.G. Mackay, 'Depolarization regions of nonzero volume for anisotropic, cubically nonlinear, homogenized nanocomposites,' Journal of Nanophotonics 1 (2007), 013506.

  79. T.G. Mackay and A. Lakhtakia, 'Lorentz covariance of the canonical perfect lens,' Physics Letters A 366 (2007), 179-183.

  80. T.G. Mackay and A. Lakhtakia, 'Scattering loss in electro-optic particulate composite materials,' Journal of Applied Physics 101 (2007), 083523.

  81. A. Lakhtakia and T.G. Mackay, 'Integral equation for scattering of light by a strong magnetostatic field in vacuum,' Electromagnetics 27 (2007), 341-354.

  82. T.G. Mackay and A. Lakhtakia, 'Negative- and positive-phase-velocity propagation in an isotropic chiral medium moving at constant velocity,' Microwave and Optical Technology Letters 49 (2007), 2640-2643.

  83. J.B. Geddes III, T.G. Mackay and A. Lakhtakia, 'On the refractive index for a nonmagnetic two-component medium: resolution of a controversy,' Optics Communications 280 (2007), 120-125.

  84. J. Cui and T.G. Mackay, 'On convergence of the extended strong-property-fluctuation theory for bianisotropic homogenized composites,' Electromagnetics 27 (2007), 495-506.

  85. T.G. Mackay and A. Lakhtakia, 'Comment on 'Criterion for negative refraction with low optical losses from a fundamental principle of causality',' Physical Review Letters 99 (2007), 189701.

  86. A. Lakhtakia, J.B. Geddes III and T.G. Mackay, 'When does the choice of the refractive index of a linear, homogeneous, isotropic, active, dielectric medium matter?,' Optics Express 15 (2007), 17709-17714.

  87. T.G. Mackay and A. Lakhtakia, 'Theory of light emission from a dipole source embedded in a chiral sculptured thin film,' Optics Express 15 (2007), 14689-14703. Erratum 16 (2008), 3659.

  88. T.G. Mackay and A. Lakhtakia, 'Response to 'On negative refraction in classical vacuum',' Journal of Modern Optics 55 (2008), 323-328.

  89. T.G. Mackay and A. Lakhtakia, 'Negative reflection in a Faraday chiral medium,' Microwave and Optical Technology Letters 50 (2008), 1368-1371.

  90. T.G. Mackay and A. Lakhtakia, 'Electromagnetic fields in linear bianisotropic mediums,' Progress in Optics 51 (2008), 121-209.

  91. A. Lakhtakia and T.G. Mackay, 'Total internal reflection of evanescent plane waves,' European Journal of Physics 29 (2008), N59-N61.

  92. T.G. Mackay, 'Lewin's homogenization formula revisited for nanocomposite materials,' Journal of Nanophotonics 2 (2008), 029503.

  93. T.G. Mackay, 'On extended homogenization formalisms for nanocomposites,' Journal of Nanophotonics 2 (2008), 021850.

  94. T.G. Mackay and A. Lakhtakia, 'Positive-, negative-, and orthogonal-phase-velocity propagation of electromagnetic plane waves in a simply moving medium: reformulation and reappraisal,' Optik 120 (2009), 45-48.

  95. T.G. Mackay and A. Lakhtakia, 'The Huygens principle for a uniaxial dielectric-magnetic medium with gyrotropic-like magnetoelectric properties,' Electromagnetics 29 (2009), 143-150.

  96. A. Lakhtakia, T.G. Mackay and J.B. Geddes III, 'On the inapplicability of a negative-phase-velocity condition as a negative-refraction condition for active materials,' Microwave and Optical Technology Letters 51 (2009), 1230.

  97. A.J. Duncan, T.G. Mackay and A. Lakhtakia, 'The homogenization of orthorhombic piezoelectric composites by the strong-property-fluctuation theory,' Journal of Physics A: Mathematical and Theoretical 42 (2009), 165402.

  98. T.G. Mackay and A. Lakhtakia, 'On the application of homogenization formalisms to active dielectric composite materials,' Optics Communications 282 (2009), 2470-2475.

  99. A.J. Duncan, T.G. Mackay and A. Lakhtakia, 'On the homogenization of orthotropic elastic composites by the strong-property-fluctuation theory,' IMA Journal of Applied Mathematics 74 (2009), 507-532.

  100. T.G. Mackay and A. Lakhtakia, 'Negative refraction, negative phase velocity, and counterposition in bianisotropic materials and metamaterials,' Physical Review B 79 (2009), 235121.

  101. T.G. Mackay and A. Lakhtakia, 'Counterposition and negative phase velocity in uniformly moving dissipative materials,' Journal of Physics A: Mathematical and Theoretical 42 (2009), 415401.

  102. T.G. Mackay and A. Lakhtakia, 'Negative refraction and positive refraction are not Lorentz covariant,' Physics Letters A 374 (2009), 101-105.

  103. T.G. Mackay and A. Lakhtakia, 'Negatively refracting chiral metamaterials: a review,' SPIE Reviews 1 (2010), 018003.

  104. T.G. Mackay and A. Lakhtakia, 'Determination of constitutive and morphological parameters of columnar thin films by inverse homogenization,' Journal of Nanophotonics 4 (2010), 041535.

  105. B.M. Ross, T.G. Mackay and A. Lakhtakia, 'On negative-phase-velocity propagation in the ergosphere of a charged rotating black hole,' Optik 121 (2010), 401-407.

  106. T.G. Mackay and A. Lakhtakia, 'Towards a metamaterial simulation of a spinning cosmic string,' Physics Letters A 374 (2010), 2305-2308.

  107. T.G. Mackay and A. Lakhtakia, 'Empirical model of optical sensing via spectral shift of circular Bragg phenomenon,' IEEE Photonics Journal 2 (2010), 92-101.

  108. T.G. Mackay and A. Lakhtakia, 'Modeling columnar thin films as platforms for surface-plasmonic-polaritonic optical sensing,' Photonics and Nanostructures - Fundamentals and Applications 8 (2010), 140-149.

  109. A. Lakhtakia, T.G. Mackay and J.B. Geddes III, 'Response to 'Comment on: On the inapplicability of a negative-phase-velocity condition as a negative-refraction condition for active materials',' Microwave and Optical Technology Letters 52 (2010), 1681.

  110. S.S. Jamaian and T.G. Mackay, 'On limitations of the Bruggeman formalism for inverse homogenization,' Journal of Nanophotonics 4 (2010), 043510.

  111. T.H. Anderson, T.G. Mackay and A. Lakhtakia, 'Ray trajectories for a spinning cosmic string and a manifestation of self-cloaking,' Physics Letters A 374 (2010), 4637-4641.

  112. Q.A. Naqvi, T.G. Mackay and A. Lakhtakia, 'Optical refraction in silver: counterposition, negative phase velocity and orthogonal phase velocity,' European Journal of Physics 32 (2011), 883-893.

  113. S.S. Jamaian and T.G. Mackay, 'On chemiluminescent emission from an infiltrated chiral sculptured thin film,' Optics Communications 284 (2011), 2382-2392. Erratum 284 (2011), 3488-3489.

  114. T.H. Anderson, T.G. Mackay and A. Lakhtakia, 'Ray trajectories for Alcubierre spacetime,' Journal of Optics (UK) 13 (2011), 055107.

  115. T.G. Mackay and A. Lakhtakia, 'Towards a realization of Schwarzschild-(anti-)de Sitter spacetime as a particulate metamaterial,' Physical Review B 83 (2011), 195424.

  116. T.G. Mackay, 'Voigt waves in homogenized particulate composites based on isotropic dielectric components,' Journal of Optics (UK) 13 (2011), 105702.

  117. J.A. Polo, Jr., T.G. Mackay and A. Lakhtakia, 'Mapping multiple surface-plasmon-polariton-wave modes at the interface of a metal and a chiral sculptured thin film,' Journal of the Optical Society of America B 28 (2011), 2656-2666.

  118. T.G. Mackay, 'Effective constitutive parameters of linear nanocomposites in the long-wavelength regime,' Journal of Nanophotonics 5 (2011), 051001.

  119. T.G. Mackay and A. Lakhtakia, 'Modeling chiral sculptured thin films as platforms for surface-plasmonic-polaritonic optical sensing,' IEEE Sensors Journal 12 (2012), 273-280.

  120. T.G. Mackay and A. Lakhtakia, 'Surface-plasmon-polariton waves guided by the uniformly moving planar interface of a metal film and dielectric slab,' Optik - International Journal for Light and Electron Optics 123 (2012), 49-57.

  121. T.G. Mackay and A. Lakhtakia, 'Response to 'On the orthogonality of the phase velocity and its feasibility for plane waves',' Optik - International Journal for Light and Electron Optics 123 (2012), 280-281.

  122. T.H. Anderson, T.G. Mackay and A. Lakhtakia, 'Toward a cylindrical cloak via inverse homogenization,' Journal of the Optical Society of America A 29 (2012), 239-243.

  123. T.G. Mackay and A. Lakhtakia, 'Towards an experimental realization of affinely transformed linearized quantum electrodynamics vacuum via inverse homogenization,' Journal of the Optical Society of America B 29 (2012), 1680-1684.

  124. S.S. Jamaian and T.G. Mackay, 'On columnar thin films as platforms for surface-plasmonic-polaritonic optical sensing: higher-order considerations,' Optics Communications 285 (2012), 5535-5542.

  125. T.G. Mackay, 'On the sensitivity of generic porous optical sensors,' Applied Optics 51 (2012), 2752-2758.

  126. T.G. Mackay and A. Lakhtakia, 'Bruggeman formalism vs. 'Bruggeman formalism': Particulate composite materials comprising oriented ellipsoidal particles,' Journal of Nanophotonics 6 (2012), 069501.

  127. A. Lakhtakia and T.G. Mackay, 'Vector spherical wavefunctions for orthorhombic dielectric-magnetic material with gyrotropic-like magnetoelectric properties,' Journal of Optics (India) 41 (2012), 201-213.

  128. T.G. Mackay and A. Lakhtakia, 'Comment on the paper 'Electromagnetic modeling of ellipsoidal nanoparticles for sensing applications',' Optical Engineering 52 (2013), 079701.

  129. T.G. Mackay, 'On the sensitivity of directions which support Voigt wave propagation in infiltrated biaxial dielectric materials,' Journal of Nanophotonics 8 (2014), 083993.

  130. T.G. Mackay and A. Lakhtakia, `Towards a piecewise-homogeneous metamaterial model of the collision of two linearly polarized gravitational plane waves,' IEEE Transactions on Antennas and Propagation 62 (2014), 6149-6154.

  131. T.G. Mackay, `Towards metamaterials with giant dielectric anisotropy via homogenization: an analytical study,' Photonics and Nanostructures - Fundamentals and Applications 13 (2015), 8-19.

  132. T.G. Mackay, `Controlling Voigt waves by the Pockels effect,' Journal of Nanophotonics 9 (2015), 093599.

  133. T.G. Mackay, `Towards optical sensing with hyperbolic metamaterials,' Optical Engineering 54 (2015), 067102.

  134. T.G. Mackay and A. Lakhtakia, `Application of Bruggeman and Maxwell Garnett homogenization formalisms to random composite materials containing dimers,' Waves in Random and Complex Media 25 (2015), 429-454.

  135. T.G. Mackay and A. Lakhtakia, `Dynamically controllable anisotropic metamaterials with simultaneous attenuation and amplification,' Physical Review A 92 (2015), 053847.

  136. A. Lakhtakia and T.G. Mackay, `Classical electromagnetic model of surface states in topological insulators,' Journal of Nanophotonics 10 (2016), 033004.

  137. A. Lakhtakia and T.G. Mackay, `Electromagnetic scattering by homogeneous, isotropic, dielectric-magnetic sphere with topologically insulating surface states,' Journal of the Optical Society of America B 33 (2016), 603-609.

  138. T.G. Mackay and A. Lakhtakia, `Comment on `Energy conservation and the constitutive relations in chiral and non-reciprocal media',' Journal of Optics (UK) 18 (2016), 068001.

  139. T.G. Mackay and A. Lakhtakia, `Simultaneous amplification and attenuation in isotropic chiral materials,' Journal of Optics (UK) 18 (2016), 055104.

  140. T.H. Anderson, M. Faryad, T.G. Mackay, A. Lakhtakia and R. Singh, `Combined optical-electrical finite-element simulations of thin-film solar cells with homogeneous and nonhomogeneous intrinsic layers,' Journal of Photonics for Energy 6 (2016), 025502.

  141. T.G. Mackay and A. Lakhtakia, `Nonreciprocal Dyakonov-wave propagation supported by topological insulators,' Journal of the Optical Society of America B 33 (2016), 1266-1270.

  142. T.G. Mackay and A. Lakhtakia, `Gain and loss enhancement in active and passive particulate composite materials,' Waves in Random and Complex Media 26 (2016), 553-563.

  143. A. Lakhtakia and T.G. Mackay, `Left/right asymmetry in reflection and transmission by a planar anisotropic dielectric slab with topologically insulating surface states,' Journal of Nanophotonics 10 (2016), 020501.

  144. T.G. Mackay and A. Lakhtakia, `On the propagation of Voigt waves in energetically active materials,' European Journal of Physics 37 (2016), 064002.

  145. F. Chiadini, V. Fiumara, T.G. Mackay, A. Scaglione and A. Lakhtakia, `Left/right asymmetry in Dyakonov-Tamm-wave propagation guided by a topological insulator and a structurally chiral material,' Journal of Optics (UK) 18 (2016), 115101.

  146. T.G. Mackay and A. Lakhtakia, `Temperature-mediated transition from Dyakonov surface waves to surface-plasmon-polariton waves,' IEEE Photonics Journal 8 (2016), 4802813.

  147. T.H. Anderson, T.G. Mackay and A. Lakhtakia, `Enhanced efficiency of Schottky-barrier solar cell with periodically nonhomogeneous InGaN layer,' Journal of Photonics for Energy 7 (2017), 014502.

  148. F. Chiadini, V. Fiumara, T.G. Mackay, A. Scaglione and A. Lakhtakia, `Temperature-mediated transition from Dyakonov-Tamm surface waves to surface-plasmon-polariton waves,' Journal of Optics (UK) 19 (2017), 085002.

  149. T.G. Mackay and A. Lakhtakia, `High-phase-speed Dyakonov-Tamm surface waves,' Journal of Nanophotonics 11 (2017), 030501.

  150. F. Chiadini, V. Fiumara, T.G. Mackay, A. Scaglione and A. Lakhtakia, `Signatures of thermal hysteresis in Tamm-wave propagation,' Journal of the Optical Society of America B 34 (2017), 2155-2160.

  151. T.G. Mackay and A. Lakhtakia, `Polarization-state-dependent attenuation and amplification in a columnar thin film,' Journal of Optics (UK) 19 (2017), 12LT01. Erratum 20 (2018), 019501.

  152. V. Vepachedu, T.G. Mackay and A. Lakhtakia, `Bragg supermirror with polarization-dependent amplification of reflected light,' Optics Communications 425 (2018), 58-63.

  153. T.G. Mackay and A. Lakhtakia, `Circular Bragg supermirror,' Journal of Nanophotonics 12 (2018), 026015.

  154. T.G. Mackay and A. Lakhtakia, `Simultaneous existence of amplified and attenuated Dyakonov surface waves,' Optics Communications 427 (2018), 175-179.

  155. T.G. Mackay and A. Lakhtakia, `Simultaneous existence of amplified and attenuated surface-plasmon-polariton waves,' Journal of Optics (India) 47 (2018), 527-533.

  156. J. Noonan and T.G. Mackay, `On electromagnetic surface waves supported by an isotropic chiral material,' Optics Communications 434 (2019), 224-229.

  157. T.G. Mackay, `On the identification of surface waves in numerical studies,' Plasmonics 14 (2019), 1-2.

  158. M. Naheed, M. Faryad and T.G. Mackay, `Electromagnetic surface waves guided by the planar interface of isotropic chiral materials,' Journal of the Optical Society of America B 36 (2019), F1-F8.

  159. T.G. Mackay and A. Lakhtakia, `Surface waves with negative phase velocity supported by temperature-dependent hyperbolic materials,' Journal of Optics (UK) 21 (2019), 085103.

  160. T.G. Mackay and A. Lakhtakia, `Exorcizing ghost waves,' Optik - International Journal for Light and Electron Optics 192 (2019), 162926.

  161. T.G. Mackay, C. Zhou and A. Lakhtakia, `Dyakonov-Voigt surface waves,' Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences 475 (2019), 20190317.

  162. C. Zhou, T.G. Mackay and A. Lakhtakia, `Surface-plasmon-polariton wave propagation supported by anisotropic materials: multiple modes and mixed exponential and linear localization characteristics,' Physical Review A 100 (2019), 033809.

  163. C. Zhou, T.G. Mackay and A. Lakhtakia, `On Dyakonov-Voigt surface waves guided by the planar interface of dissipative materials,' Journal of the Optical Society of America B 36 (2019), 3218-3225.

  164. C. Zhou, T.G. Mackay and A. Lakhtakia, ` Theory of Dyakonov-Tamm surface waves featuring Dyakonov-Tamm-Voigt surface waves,' Optik - International Journal for Light and Electron Optics 211 (2020), 164575.

(Updated: 6-05-20)