Nanotechnology Community
Nanotechnology Community

Ibrahim Abdulhalim

Department of Electrooptic Engineering
Ben Gurion University


1. R. Marx, U. Hubner, I. Abdulhalim, J. Heppner, Yu-Cai-Ni, G. Willenberg, C.O. Weiss, - Far Infrared CW Raman and Laser Gain of 14NH3, IEEE J. Quant. Elec., QE17, 6, 1123 (1981).

2. I. Abdulhalim, L. Benguigui, R. Weil, - Selective Reflection by Helicoidal Liquid Crystals: Results of an Exact Calculations using the 4 x 4 Characteristic Matrix Method, J. De Phys., 46, 815 (1985).

3. I. Abdulhalim, L. Benguigui, R. Weil, - Light Transmission Measurements in the Liquid Crystal SMC Phase of DOBAMBC at Normal Incidence, J. De Phys., 46, 1429 (1985).

4. R. Weil, I. Abdulhalim, R. Beserman, M. Janai, B. Pratt, - Comparison of Strain in Glow Discharge a-Si:F and a-Si:H, J. Non. Crys. Solids, Vol. 77, p. 261 (1985).

5. I. Abdulhalim, R. Weil, L. Benguigui, - Dispersion and Attenuation of the Eigenwaves for Light Propagation in Helicoidal Liquid Crystals, Liq. Crys., Vol. 1, No. 2, 155 (1986).

6. I. Abdulhalim, R. Beserman, Yu. L. Khait, - Light Induced Structural Changes in Amorphous Semiconductors, J. Non. Crys. Solids, Vol, 97 and 98, 387 (1987).

7. I. Abdulhalim, R. Beserman, - Raman Scattering Study of Light Induced Structural Transformations in Glassy As2Se3, Sol. Stat. Commun. Vol. 64, No. 6, 951 (1987).

8. I. Abdulhalim, - Light Propagation Along the Helix of Chiral Smectics and Twisted Nematics, Opt. Commun., Vol. 64, No. 5, 443 (1987).

9. I. Abdulhalim, R. Beserman, Yu. L. Khait, - Laser Induced Oscillatory Instabilities in Amorphous Materials, Europhys. Lett., Vol. 4, No. 12, 1371 (1987).

10. I. Abdulhalim, R. Beserman, Yu. L. Khait, R. Weil, - Laser Induced Structural Instabilities in Amorphous Materials, Appl. Phys. Lett., Vol. 51, No. 23, 1898 (1987).

11. I. Abdulhalim, L. Benguigui, - Critical Angles for Light Propagation in Chiral Smectic Liquid Crystals, Ferroelectrics, Vol. 84, 273 (1988).

12. I. Abdulhalim, R. Beserman, R. Weil, - Structural Changes and Crystallization of Amorphous Hydrogenated Silicon Generated by Laser Irradiation, Phys. Rev. B. 39, 2, 1081 (1989).

13. I. Abdulhalim, R. Beserman, R. Weil, - Photodarkening, Structural Instabilities and Crystallization of glassy As2Se3 Induced by Laser Irradiation, Phys. Rev. B. 40, 12476 (1989).

14. I. Abdulhalim, G. Moddel, K.M. Johnson, - High Speed Analog Spatial Light Modulator using an a-Si:H Photosensor and an Electroclinic Liquid Crystal, Appl. Phys. Lett., 55, no'16, 1603 (1989).

15. I. Abdulhalim, G. Moddel, K.M. Johnson, C.M. Walker, - Optically Addressed Electroclinic Liquid Crystal Spatial Light Modulator With an a-Si:H Photodiode, J. Non. Cryst. Solids, 115, 162 (1989).

16. R.A. Rice, G. Moddel, I. Abdulhalim, C.M. Walker, - A Three Terminal Spatial Light Modulator Optically Addressed by an a-Si:H Photosensor, J. Non. Cryst. Solids, 115, 96 (1989).

17. I. Abdulhalim, L. Benguigui, - Optics of Chiral Smectic Liquid Crystals Near Lifshitz Point, Phys. Rev. A., 42, 2114 (1990).

18. I. Abdulhalim, - Dispersion Relations for the Refractive Indices and the Effective Birefringence of Liquid Crystals, Mol. Crys. Liq. Cryst., 197, 103(1991).

19. I. Abdulhalim, G. Moddel, - Optically and Electrically Controlled Light Modulation and Color Switching using Helix Distorsion of Ferroelectric Liquid Crystals, Mol. Cryst. Liq. Cryst., 200, 79(1991).

20. I. Abdulhalim, G. Moddel, - Switching Behavior and Electro-optic Response due to the Soft Mode Ferroelectric Effect in Chiral Smectic A Liquid Crystals, Liq. Crys., 9 (4) 493 (1991).

21. I. Abdulhalim, G. Moddel, N.A. Clark, - Director - Polarization Reorientation via Solitary Waves in Ferroelectric Liquid Crystals, Appl.Phys. Lett., 60, 551(1992).

22. I. Abdulhalim, - Strong Effect of the Interface Layers on the Electro-optic Response of Ferroelectric Liquid Crystals, Europhys.Lett., 19, 91(1992).

23. I. Abdulhalim, C.N. Pannell, D.N. Payne, - Fibre Compatible fast Acousto-Optic Modulator using a Gradient Index Lens as the Interaction Medium, Appl.Phys.Lett, 62, 3402(1993).

24. I. Abdulhalim, C.N. Pannell, L. Reekie, K.P. Jedrzejewski, E.R. Taylor, D.N. Payne, - High Power, Short Pulse Acousto-Optically Q-Switched Fibre Laser, Optics Commu., 99, 355 (1993).

25. I. Abdulhalim, C.N. Pannell, - Photoelastically Induced Light Modulation in Graded Index Lenses, Opt.Lett., 18, 1274(1993).

26. I. Abdulhalim, C.N. Pannell, - Acousto-optic in Fibre Modulator using Acoustic Focusing, IEEE Photon.Technol.Lett., 5, 999 (1993).

27. I. Abdulhalim, C.N. Pannell, - Photoelastic in-Fibre Birefringence Modulator Operating at the Fundamental Transverse Acoustic Resonance, IEEE Photon.Technolo.Lett., 5, 1197 (1993).

28. I. Abdulhalim, R.S. Deol, C.N. Pannell, G. Wylangowski, D.N. Payne, - High Performance Acousto-Optic Chalcogenide Glass Based on Ga2S3-La2S3 Systems, J.Non.Cryst.Solids, 164-166, 1251 (1994).

29. I. Abdulhalim, - Continuous Phase-Only or Amplitude Light Modulation using Ferroelectric Liquid Crystals with Fixed Boundary Orientations, Optic.Communi., 108, 219 (1994).

30. I. Abdulhalim, G. Moddel, N.A. Clark, - Soliton Switching in Ferroelectric Liquid Crystals and their Transient Electro-Optic Response, J.Appl.Phys., 76, 820 (1994).

31. I. Abdulhalim, J.L. Archambault, L. Reekie, C.N. Pannell, P.StJ. Russell, Elasto-optically Induced Modulation of In-Fibre Grating, IEEE Photon.Technol.Lett., 5, 1395 (1994).

32. I. Abdulhalim, C. N. Pannell, K.P. Jedrzejewski, E.R. Taylor, - Cavity Dumping of Neodymium Doped Fibre Lasers using Acousto-optic Modulator, Optic.Quant.Electr., 26 (11), 997 (1994).

33. I. Abdulhalim, J. Wang, C.N. Pannell, G. Wylangowski, D.N. Payne, - Acousto-optic Modulation using a New Chlorotellurite Glass, J.Appl.Phys., 75, 519 (1994).

34. I. Abdulhalim, - Kinetic Model for Photoinduced and Thermally Induced Creation and Annihilation of Metastable Defects in Hydrogenated Amorphous Silicon, J.Appl.Phys., 77, 1897 (1995).

35. I. Abdulhalim, - Model for Photoinduced Defects and Photorefractivity in Optical Fibers, App. Phys. Lett., 66, (24), 3248, (1995).

36. C. N. Pannell, B. F. Wacogne, I. Abdulhalim, - In-Fiber and Fiber-Compatible Acoustooptic Components, J. Lightwave Technolog., 13, (7), 1429 (1995).

37. I. Abdulhalim, Analytic formulae for the refractive indices and the propagation angles in biaxial and gyrotropic media, Optics Commu. (157)1-6 (1998) pp. 265-272.

38. I. Abdulhalim, - Analytic propagation matrix method for linear optics of arbitrary biaxial layered media, J. Opt. A, 1 (5) (646-653) 1999.

39. I. Abdulhalim, - 2×2 Matrix summation method for multiple reflections and transmissions in a biaxial slab between two anisotropic media, Optics Commu. (163)1-3 9-14 (1999).

40. I. Abdulhalim, - Exact 2 × 2 matrix method for the transmission and reflection at the interface between two arbitrarily oriented biaxial crystals, J. Opt. A: Pure Appl. Opt. 1 (6) (655-661) 1999.

41. I. Abdulhalim, Point of ultra-sensitivity to perturbations for axial propagation in helicoidal bianisotropic structures, Europhys. Lett, 48 (2), pp. 177-181 (1999).

42. I. Abdulhalim, - Method for the measurement of multilayers refractive indices and thicknesses using interference microscopes with annular aperture, - Optik, 110 (10), 476-8 (1999).

43. I. Abdulhalim, - Omnidirectional reflection from periodic anisotropic stack, Opt.Commu., 174, 43-50 (2000).

44. I. Abdulhalim, - The propagation matrix for optics of isotropic chiral slabs and multi-layers, Optik, 111 (2), 65-70 (2000).

45. I. Abdulhalim, - Reflective Phase-Only Modulation using one Dimensional Photonic Crystals, - J.Opt.A (letters), 2 (2), L9-L11 (2000).

46. I. Abdulhalim, - Analytic Propagation Matrix Method for Anisotropic Magneto-Optic Layered Media, J. Opt. A: Pure Appl. Opt. 2, 557-564 (2000).

47. I. Abdulhalim, - Theory for Double Beam Interferometric Microscopes and Experimental Verification using the Linnik Microscope, - J.Mod.Optics 48 (2) 279-302 (2001).

48. I. Abdulhalim, - Spectroscopic Interference Microscopy Technique for Measurement of layer Parameters, Meas.Sci.Technol., 12, 1996-2001 (2001).

49. I. Abdulhalim, - Comment on Teaching the Flux and Transport Parameters of Maxwellian Gas within the Kinetic Theory, Europ.J.Phys. 22, 519-526 (2001).

50. D. Lusk, I. Abdulhalim and F. Placido, Omnidirectional reflection from Fibonacci quasi-periodic one-dimensional photonic crystal, Opt. Commu., 198, 273-279 (2001).

51. I. Abdulhalim, S. Millward, G. Moores, L. Firth and F. Placido, Operation of Lateral Effect Photosensitive Position Sensors using Differential Time Delay Mode, Opt.Eng. 41 (12) 3265-69 (2002).

52. I. Abdulhalim, Reflective Polarization Conversion Fabry-Perot Resonator using Omnidirectional Mirror of Periodic Anisotropic Stack, Optics Commu. 215, 225-230 (2003).

53. I. Abdulhalim, Optimization of antiferroelectric liquid crystal devices at the degeneration point, J.Appl.Phys. (Communication) Vol. 93, 9, 4930-32 (2003).

54. I. Abdulhalim, and G. Moores, Remote temperature and thermal expansion sensing using the time delay mode of position sensors, - Sensors and Actuators A Vol.111/2-3, 245-51 (2004).

55. I. Abdulhalim, Device Physics of the lateral effect position sensor operation in the time delay mode, J.Phys.D. 37, 1376-84 (2004).

56. I. Abdulhalim, Dispersion relations for liquid crystals using the anisotropic Lorentz model with geometrical effects, Liq.Cryst. 33 (9) 1027-41 (2006).

57. I. Abdulhalim, Polarized optical filtering from generalized twisted anisotropic structure, Opt.Comm. 267 (1) 36-39 (2006).

58. I. Abdulhalim, Unique optical properties of anisotropic helical structures in Fabry-Perot cavity, Opt. Lett. 31, 3019-21 (2006).

59. I. Abdulhalim, Competence between spatial and temporal coherence in full field optical coherence tomography and interference microscopy, J. Opt. A: Pure Appl. Opt. 8, 952-958 (2006).

60. M. Zourob, A. Simonian, J. Wild, S. Mohr, Xudong Fan, I. Abdulhalim and N. J. Goddard, Optical leaky waveguide biosensors for the detection of organophosphorus pesticides, Analyst, 132, 114-120 (2007).

61. I. Abdulhalim, Simplified optical scatterometry for periodic nano-arrays in the quasi-static limit, Appl.Opt., 46, 2219-2229 (2007).

62. I. Abdulhalim, M. Auslender, S. Hava, Resonant and scatterometric gratings based nano-photonic structures for biosensing, Journal of NanoPhotonics, 1, 011680 (2007).

63. I. Abdulhalim, R. Moses and R. Sharon, Biomedical optical applications of liquid crystal devices, Acta Physica Polonica A 112 (5) 715-722 (2007).

64. I. Abdulhalim, M. Zourob, A. Lakhtakia, Surface plasmon resonance sensors-a mini review, Invited review to a special issue on the topic: Electromagnetic Surface Waves, J. Electromagnetism 28:3, 213-242 (2008).

65. I. Abdulhalim, Effect of the number of sublayers on axial optics of anisotropic helical structures, Appl.Opt. 47, 3002-3008 (2008).

66. Amit Lahav, Mark Auslender and I. Abdulhalim, Sensitivity enhancement of guided wave surface plasmon resonance sensors, Opt.Lett. 33, 2539-2541 (2008).

67. I. Abdulhalim and Ronen Dadon - Multiple interference and spatial frequencies’ effect on the application of frequency-domain optical coherence tomography to thin films’ metrology, Measurement science and technology 20, 015108 (2008).

68. I. Abdulhalim, Surface plasmon TE and TM waves at anisotropic film-metal interface, J. Opt. A: Pure Appl. Opt. 11, 015002 (2009).

69. Amit Lahav, Atef Shalabney, I. Abdulhalim, Surface plasmon resonance sensor with enhanced sensitivity using nano-top dielectric layer, Journal of Nano-photonics 3, 031501 (2009).

70. I. Abdulhalim, Alina Karabchevsky, Christian Patzig, Bernd Rauschenbach, Bodo Fuhrmann, Evgeny Eltzov, Robert Marks, Jian Xu, Fan Zhang, Akhlesh Lakhtakia, Surface enhanced fluorescence from metal sculptured thin films with application to biosensing in water, App.Phys.Lett. 94, 063206 (2009).

71. Avner Safrani, I. Abdulhalim, Spectropolarimetric method for optic axis, retardation and birefringence dispersion measurement, Opt. Eng. 48 (5), 053601 (2009).

72. I. Abdulhalim - Coherence effects in applications of frequency and time domain full field optical coherence tomography to optical metrology, Invited paper to a Special Issue on Holography and Interferometry for Sensing, Recording, Visualizing and Manipulating Data: Current Research Topics Reflecting the Contribution of Professor Chandra S. Vikram, J. Holography and Speckle, 5, 180-190 (2009).

73. I. Abdulhalim, Polarization independent birefringent Fabry-Perot etalon having polarization conversion mirrors, Opt.Commun. 282, 3052-3054 (2009), doi:10.1016/j.optcom.2009.04.044

74. Avner Safrani and I. Abdulhalim, Liquid crystal polarization rotator and a tunable polarizer, Optics Letters, 34, 1801-3 (2009).

75. A. Shalabney, A. Lakhtakia, I. Abdulhalim, A. Lahav, Christian Patzig, I. Hazek, A. Karabchevky, Bernd Rauschenbach, F. Zhang, J. Xu, Surface plasmon resonance from metallic columnar thin films, Photon Nanostruct: Fundam Appl. 7, 176-185 (2009), doi:10.1016/j.photonics.2009.03.003.

76. A. Karabchevsky, O. Krasnykov, I. Abdulhalim, B. Hadad, A. Goldner, M. Auslender and S. Hava, Metal grating on a substrate nanostructure for sensor applications, Photon Nanostruct: Fundam Appl 7, 170-175 (2009), doi:10.1016/j.photonics.2009.05.001.

77. I. Abdulhalim, Optimized guided mode resonant structure as thermooptic sensor and liquid crystal tunable filter, Chinese Optics Letters, 7 (8), 667, (2009).

78. Ofir Aharon and I. Abdulhalim, Birefringent tunable filter with wide dynamic range, Opt.Lett., 34, 2114-2116 (2009).

79. Ofir Aharon and I. Abdulhalim, Liquid crystal tunable filter with extended free spectral range, Optics Express, 17, 11426-33 (2009).

80. Alina Karabchevsky, Olga Krasnykov, Mark Auslender, Benny Hadad, Adi Goldner and I. Abdulhalim, Theoretical and experimental investigation of enhanced transmission through periodic metal nanoslits for sensing in water environment, Journal of Plasmonics, 4, 281-292 (2009), DOI 10.1007/s11468-009-9104-4.

81. I. Abdulhalim, David Menashe, Approximate analytic solutions for the director profile of homogeneously aligned nematic liquid crystals, Liq.Cryst. 37, 233-239 (2010).

82. A. Shalabney and I. Abdulhalim, Electromagnetic fields distribution in multilayer thin film structures and the origin of sensitivity enhancement in surface plasmon resonance sensors, Sensors and Actuators A, 159, 24-32 (2010).

83. Ofir Aharon, I. Abdulhalim, Liquid crystal wavelength independent continuous polarization rotator, Optical Engineering 49, 034002-4p (2010).

84. Avner Safrani, Ofir Aharon, Shahar Mor, Ofer Arnon, Lior Rosenberg and I. Abdulhalim, Skin biomedical optical imaging system using dual wavelength polarimetric control with liquid crystals, Journal of Biomedical Optics 15, 026024-8p (2010).

85. Rony Sharon, Ron Friedmann, I. Abdulhalim, Multilayered scattering reference mirror for full field optical coherence tomography with application to cell profiling, Opt.Commu. 283, 4122-25 (2010).

86. Shahar Mor, Vicente Torres-Costa, Raúl J. Martín-Palma and I. Abdulhalim, Planar polar liquid crystalline alignment in nanostructured porous silicon one dimensional photonic crystals, Appl.Phys.Lett. 97, 113106 (2010).

87. Alex Zlotnik, Yoed Abraham, Lior Liraz, I. Abdulhalim and Zeev Zalevsky, Improved Extended Depth of Focus Full Field Spectral Domain Optical Coherence Tomography, Opt.Commu. 283, 4963-68 (2010).

88. Michael Nye and I. Abdulhalim, Does Human Skin Truly Behave as an Array of Helical Antennae in the Millimeter and THz Wave Ranges?, Opt.Lett. 35, 3180 (2010).

89. Olga Krasnykov, Alina Karabchevsky, Mark Auslender and I. Abdulhalim, Sensor with increased sensitivity based on enhanced optical transmission in the infrared, Opt.Commu., 284, 1435-1438 (2011).

90. Miri Gelbaor, Matvey Klebanov, Victor Lyubin and I. Abdulhalim, Photoinduced Permanent Alignment of Liquid Crystal on Nanostructured Chalcogenide Thin Film, Appl.Phys.Lett. 98, 071909 (2011).

91. I. Abdulhalim, Non-display Bio-Optic Applications of Liquid Crystals, Liquid Crystals Today 20, Issue 2, 44-60 (2011). Invited review article.

92. A. Karabchevsky, S. Karabchevsky, and I. Abdulhalim, Fast surface plasmon resonance imaging sensor using Radon transform, Sensors and Actuators B: Chemical, 155, 361-365 (2011).

93. Olga Krasnykov, Mark Auslander and I. Abdulhalim, Optimizing the guided mode resonance structure for sensing, Journal of Physics Express 2011, in press.

94. Michael Ney and I. Abdulhalim, Modeling of reflectometric and ellipsometric spectra from the skin in the TeraHertz and submillimeter waves region, J. Biomedical Optics, 2011, in press.

95. Atef Shalabney and I. Abdulhalim, Sensitivity enhancement methods for surface plasmon sensors, Invited review article to the Journal: Lasers and Photonics Review, 2011, in press. DOI 10.1002/lpor.201000009

96. Avner Safrani and I. Abdulhalim, Spatial Coherence Effect on Layers Thickness Determination in Narrowband Full Field Optical Coherence Tomography , Applied Optics, 2011, in press.

97. A. Karabchevsky, S. Karabchevsky, and I. Abdulhalim, Nano-precision Algorithm for Surface Plasmon Resonance Determination from Images with Low Contrast for Improved Sensor Resolution, J. NanoPhotonics, 2011, in press.


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