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Ibrahim Abdulhalim

Department of Electrooptic Engineering
Ben Gurion University

Interests

Nanophotonics, plasmonics, biosensors, optical imaging, liquid crystal devices

Projects

Tunable photonic metamaterials, Explosives detection with SERS, Fast optical metrology using real time phase shift measurement, nano-micro liquid crystal smart windows, VO2 smart windows, solar interfacial heating, Novel LC alignment techniques

Publications

Scientific Publications For citations and impact please see websites: http://scholar.google.com.sg/citations?user=ZtpoAh8AAAAJ&hl=en&oi=ao https://cris.bgu.ac.il/en/persons/ibrahim-abdulhalim https://orcid.org/0000-0002-1474-5412 https://aizena.wixsite.com/abdulhalim-group/services2 (a) Books: 1. Z. Zalevsky and I. Abdulhalim, Integrated Nanophotonic Devices (Micro and Nano Technologies), Publisher: William Andrew-Elsevier, (1st ed. 2010, 2nd ed. 2014), ISBN 1437778488. 2. I. Abdulhalim and R. Marks, Editors, Nanomaterials for Water Management: Signal Amplification for Biosensing from Nanostructures, (Pan Stanford Publishing, 2015). ISBN 9789814463478 - CAT# N11160. http://www.crcpress.com/product/isbn/9789814463478 (b) Chapters in books: 1. I. Abdulhalim, M. Zourob, A. Lakhtakia, Overview of optical biosensing techniques, Invited chapter in the Handbook of Biosensing and Biochips, edited by R. S. Marks, C. R. Lowe, D. C. Cullen, , H. H. Weetall and I. Karube, John Wiley and Sons, 2007, pages 413-446, ISBN978-0-470-01905-4. 2. I. Abdulhalim, Biosensing configurations using guided wave resonant structures, in NATO Science for Peace and Security Series B: Physics sand Biophysics, Optical waveguide sensing and imaging, Ch.9, pp. 211-228, Editors: Wojtek J. Bock, Israel Gannot and Stoyan Tanev, Springer-Verlag, Amsterdam, Netherlands , Dec. 2008. DOI:10.1007/978-1-4020-6952-9_9. 3. I. Abdulhalim, Nanophotonic and subwavelength structures for sensing and biosensing, Chapter 4, in: M. Zourob and A. Lakhtakia (eds.), Optical Guided-wave Chemical and Biosensors II, Springer series on Chemical Sensors and Biosensors 8, DOI 10.1007/978-3-642-02827-4_4, Springer-Verlag Berlin Heidelberg 2010. 4. I. Abdulhalim, Nanoplasmonics, In: Recent advances in nanotechnology, Editor: Zeev Zalevsky, Publisher: Verlag Dr. Muller, ISBN: 3639341279 / ISBN-13: 9783639341270, 2012. 5. I. Abdulhalim, Enhanced spectroscopies and surface plasmon thin film sensors, Chapter 7 in: Nanoantenna: Plasmon-Enhanced Spectroscopies for Biotechnological Applications, Ed. Marc Lamy de la Chapelle and Annemarie Pucci, Pan Stanford Publishing, Singapore 2013. 6. A. Karabchevsky and I. Abdulhalim, Techniques for signal analysis in surface plasmon resonance sensors, In: Nanomaterials for Water Management: Signal Amplification for Biosensing from Nanostructures, Ch.7, Editors: I. Abdulhalim and R. S. Marks, Pan Stanford Publishing, 2015. 7. I. Abdulhalim, Spatiotemporal coherence effects in full field optical coherence tomography, In: Full-Field Optical Coherence Microscopy: technology and applications, Editor: Arnaud Dubois, 2016. 8. C. Grüner, I. Abdulhalim, B. Rauschenbach, Glancing angle deposition for biosensing applications, Encyclopedia of Interfacial Chemistry - Surface Science and Electrochemistry, Elsevier, 1st edition (April 15, 2018), ISBN: 978-0128097397 9. Anand M. Srivastav, Marwan J. Abuleil, Ibrahim Abdulhalim, Design Considerations and Limitations for Miniature SPR Devices, Chapter 12 in Plasmonics based Optical Sensors and Detectors, Jenny Stanford Publishing 2022. 10. Sachin Kumar Srivastava, Ibrahim Abdulhalim, Surface-enhanced Raman scattering based plasmonic sensors, Chapter 8 in Plasmonics based Optical Sensors and Detectors, Jenny Stanford Publishing 2022. 11. Mohammad Abutoama, Ibrahim Abdulhalim, Cavity modes and surface plasmon waves coupling on nanostructured surfaces for enhanced sensing and energy applications, in Adventures in Contemporary Electromagnetic, T.G.Mackay, A.Lakhtakia (eds.), Springer Nature Switzerland AG 2023. (c) Refereed articles in scientific journals 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, 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, C. N. Pannell, R. S. Deol, D. W. Hewak, 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, C. N. Pannell, J. Wang, G. Wylangowski, D. N. Payne, "Acousto-optic modulation using a new chlorotellurite glass," J.Appl.Phys., 75, 519 (1994). 30. I. Abdulhalim, - Continuous Phase-Only or Amplitude Light Modulation using Ferroelectric Liquid Crystals with Fixed Boundary Orientations, Optic.Communi., 108, 219 (1994). 31. 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). 32. 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). 33. 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). 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 time-delay mode of operation of optoelectronic lateral effect position sensors, 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, Atef Shalabney, 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. Atef Shalabney and I. Abdulhalim, Sensitivity enhancement methods for surface plasmon sensors, Lasers and Photonics Reviews, 5, 571-606 (2011). DOI 10.1002/lpor.201000009. Invited review article. 94. Avner Safrani and I. Abdulhalim, Spatial coherence effect on layers thickness determination in narrowband full field optical coherence tomography, Applied Optics 50, 3021-27 (2011). 95. Michael Ney and I. Abdulhalim, Modeling of reflectometric and ellipsometric spectra from the skin in the TeraHertz and submillimeter waves region, J. Biomedical Optics 16, 067006-15 (2011). 96. 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, 5, 051813-12 (2011). DOI: 10.1117/1.3598138. 97. Alina Karabchevsky, Mark Auslender and I. Abdulhalim, Dual LSPR excitation at the interfaces of periodic metallic nanostructures, J. Nano Photonics 5, 051821-9p (2011). 98. Ofir Aharon, I. Abdulhalim, Ofer Arnon, Lior Rosenberg, Victor Dyomin, Eldad Silberstein, Differential optical spectropolarimetric imaging system assisted by liquid crystal devices for skin imaging, J. Biomedical Optics, 16(8), 086008-12p (2011). 99. מערכת דימות ספקטרו-פולארימטרית לאבחון לא פולשני של סרטן העור, עופר ארנון, אופיר אהרון, אלדד זילברשטיין, אלכסנדר בוגדנוב-ברזובסקי, יובל קריגר, ליאור רוזנברג, אברהים עבדולחלים, הרפואה, כרך 150, חוברת 12, דצמבר 2011. 100. Olga Krasnykov, Mark Auslander and I. Abdulhalim, Optimizing the guided mode resonance structure for optical sensing in water, Physics Express 1(3), 183-190 (2011). http://www.simplex-academic-publishers.com/physics.aspx?b=2. https://www.academia.edu/download/53144865/GMR-as-water-sensor-PhysExp.pdf 101. Atef Shalabney, C. Khare, B. Rauschenbach, and I. Abdulhalim, Sensitivity of surface plasmon resonance sensors based on metallic columnar thin films in the spectral and angular interrogations, Sensors and Actuators B: Chemical, 159, 201-212 (2011). 102. I. Abdulhalim, M. Gelbaor, M. Klebanov and V. Lyubin, Photoinduced phenomena in nano-dimensional glassy As2S3 films, Optical Materials Express 1, 1192-1201 (2011). 103. Avner Safrani and I. Abdulhalim, Ultra High Resolution Full Field Optical Coherence Tomography Using Spatial Coherence Gating and Quasi Monochromatic Illumination, Opt. Lett. 37, 458 (2012). 104. Atef Shalabney and I. Abdulhalim, Figure of merit enhancement of surface plasmon resonance sensors in the spectral interrogation, Optics Letters 37, 1175 (2012). 105. Sabine Szunerits, Atef Shalabney, Rabah Boukherroub and I. Abdulhalim, Dielectric coated plasmonic interfaces: their interest for sensitive sensing of analyte-ligand interactions, Anal.Chem. 31, 15-28 (2012). Invited Review Article. 106. I. Abdulhalim, Liquid crystal active nanophotonics and plasmonics: from science to devices, J. Nano Photonics, 6, 061001-19p (2012). Invited Commemorative Paper. 107. Alina Karabchevsky, Chinmay Khare, Bernd Rauschenbach, and I. Abdulhalim, Microspot biosensing based on surface enhanced fluorescence from Nano-STFs, J. NanoPhotonics 6, 061508-1, 12pp (2012). 108. Atef Shalabney, C. Khare, Jens Bauer, B. Rauschenbach, and I. Abdulhalim, Detailed study of Surface enhanced Raman scattering from metallic nano sculptured thin films and their potential for biosensing, J. Nanophoton. 6 (1), 061605 (2012). 109. I. Abdulhalim, M. Gelbaor Kirzhner, Yu. Kurioz, M. Klebanov, V. Lyubin, Yu. Reznikov, N. Sheremet, K. Slyusarenko, Integration of chalcogenide glassy films and liquid crystals for photoalignment and optically addressed modulators, Physica Status Solidi, 249, 2040-46 (2012). DOI: 10.1002/pssb.201200366 110. I. Abdulhalim, Highly promising electrooptic material: distorted helix ferroelectric liquid crystal with a specific tilt angle, Appl.Phys.Lett., 101, 141903 (5pp) (2012). 111. I. Abdulhalim, Spatial and temporal coherence effects in interference microscopy and full-field optical coherence tomography, Ann. Der Physik, 524, 787-804 (2012). DOI 10.1002/andp.201200106, Invited Review Article. 112. Atef Shalabney and I. Abdulhalim, Prism dispersion effects in near-guided-wave surface plasmon resonance sensors, Ann. Der Physik, 524, 680-686 (2012). DOI 10.1002/andp.201200138. 113. Jenny Sokolovsky, Yitzhak Yitzhaky and I. Abdulhalim, Analysis of Optical Coherence Tomography Interferograms of Multi-Layered Biological Samples, Appl. Opt., 51, 8390-8400 (2012). 114. M. Klebanov, V. Lyubin, M. Gelbaor Kirzhner, and I. Abdulhalim, Photoinduced scalar and vectorial optical phenomena in nano-dimensional glassy chalcogenide films and their liquid crystal photoalignment, J. Appl. Phys. 113, 033503-6p (2013); Doi: 10.1063/1.4775801 115. Alina Karabchevsky, Lev Tsapovsky, Robert S. Marks, I. Abdulhalim, Study of immobilization procedure on silver nanolayers and detection of estrone with diverged beam SPR imaging, Biosensors 3, 157-170 (2013). Doi:10.3390/bios3010157 116. Hadar Reisman, Drew P. Pulsifer, Raúl J. Martín-Palma, Akhlesh Lakhtakia, Roman Dabrowski, and Ibrahim Abdulhalim, On alignment of nematic liquid crystals in chiral sculptured thin films, J. Nano Photonics 7, 073591 (2013). 117. Lior Graham, Yitzhak Yitzhaky and I. Abdulhalim, Classification of skin moles from optical spectro-polarimetric images, J. Biomed. Optics 18, 111403 (2013). 118. Iftach Klapp, Asi Solodar, I. Abdulhalim, Tunable extended depth of field using a liquid crystal annular spatial filter, Optics Letters 39, 1414 (2014). 119. Miri Gelbaor Kirzhner, Matvey Klebanov, Victor Lyubin, Neil Collings, and I. Abdulhalim, High resolution optically addressed spatial light modulator based on nematic liquid crystal and nano-dimensional chalcogenide glass photosensor, Optics Letters 39, 2048 (2014). 120. Marwan J. Abu Leil, I. Abdulhalim, Birefringence measurement using rotating analyzer approach and quadrature cross points, Applied Optics 53, 2097-104 (2014). 121. Asi Solodar, Iftach Klapp, I. Abdulhalim, Annular Liquid Crystal Spatial Light Modulator for Beam Shaping and Extended Depth of Focus, Optics Communications 23, 167-173 (2014). 122. Sivan Isaacs, Frank Placido, and I. Abdulhalim, Polarization independent liquid crystal Fabry-Perot tunable filter, Optical Engineering 53, 047101 (2014). 123. Sachin K. Srivastava, Atef Shalabney, I. Khalailah, Christoph Grüner, B. Rauschenbach, and I. Abdulhalim, SERS Biosensor using Metallic nanoSculptured Thin Films for the Detection of Endocrine Disrupting Compound Biomarker Vitellogenin, Small 10, 3579-3587 (2014). DOI: 10.1002/smll.201303218 124. I. Abdulhalim, Plasmonic Sensing using Metallic Nano-Sculptured Thin Films, Small 10, 3499-3514 (2014). DOI: 10.1002/smll.201303181, Invited review article 125. Iftach Klapp, Asi Solodar, I. Abdulhalim, Variable Extended Depth of Field using Liquid Crystal Annular Spatial Light Modulator, Applied Optics 53, 4301-12 (2014). (One of its figures selected for the cover page!) 126. Sivan Isaacs, Frank Placido, and I. Abdulhalim, Investigation of Liquid Crystal Fabry Perot Tunable Filters: Design, Fabrication and Polarization Independence, Applied Optics 53, H91-H101 (2014). 127. Avner Safrani and I. Abdulhalim, Real Time, Phase Shift, Interference Microscopy, Optics Letters 39, 5220-23 (2014). 128. Marwan J. Abu Leil, I. Abdulhalim, Tunable achromatic liquid crystal waveplates, Optics Letter 39, 5487-90 (2014). 129. Tsofnat Ganigar, Tatipamula Arun Kumar, Matvey Klebanov, Neta Arad-Vosk, Rotem Beach, Amir Sa’ar, Ibrahim Abdulhalim, Gabby Sarusi and Yuval Golan, Chemically Deposited PbS Thin Film Photo-Conducting Layers for Optically Addressed Spatial Light Modulators, J. Mater. Chem. C, 2, 9132-40 (2014). 130. Chang Liu, Igal Balin, Shlomo Magdassi, Ibrahim Abdulhalim, and Yi Long, Vanadium dioxide nanogrid films for high transparency smart architectural window applications, Optics Express 23, A124-132 (2015). 131. Sachin K. Srivastava, Hilla Ben Hamo, Ariel Kushmaro, Robert S. Marks, Christoph Gruner, Bernd Rauschenbach and Ibrahim Abdulhalim, Highly sensitive detection of E-Coli by a SERS nanobiosensor chip utilizing metallic nanosculptured thin films, Analyst, 140, 3201-3209 (2015), DOI: 10.1039/C5AN00209E. 132. Sachin K. Srivastava and Ibrahim Abdulhalim, Self –referenced sensor utilizing extra-ordinary optical transmission from nanoslits array, Opt. Lett. 40, 2425-28 (2015). 133. Sivan Isaacs and Ibrahim Abdulhalim, Long range surface plasmon resonance with ultrahigh penetration depth for self-referenced sensing and ultralow detection limit using diverging beam approach, Appl.Phys.Lett. 106, 193701-4 (2015). 134. Avner Safrani and Ibrahim Abdulhalim, Full field parallel interferometry coherence probe microscope for high speed optical metrology, Appl. Opt. 54, 5083-87 (2015). Top 10 downloaded paper! 135. Sachin K. Srivastava, Roli Verma, Banshi D. Gupta, Isam Khalaila and Ibrahim Abdulhalim, SPR based fiber optic sensor for the detection of vitellogenin: an endocrine disruption biomarker in aquatic environments, Biosens J 4:1. 1000114, (2015). http://dx.doi.org/10.4172/2090-4967.1000114. 136. Sachin K. Srivastava and Ibrahim Abdulhalim, Spectral interrogation based SPR sensor for blood glucose detection with improved sensitivity and stability, J Biosens Bioelectron 6:2, 1000172 (2015). http://dx.doi.org/10.4172/2155-6210.1000172. 137. Anran Li, Sivan Isaacs, Ibrahim Abdulhalim, Shuzhou Li, Ultrahigh Enhancement of electromagnetic Fields by Exciting Localized with Extended Surface Plasmons, J. Phys. Chem. C 119, 19382-9 (2015). DOI: 10.1021/acs.jpcc.5b05830. Also in Arxiv:1507.00311 [Physics.Optics]. 138. Ibrahim Watad, Mohamad A. Jabalee, Amir Aizen and Ibrahim Abdulhalim, Critical angle based sensor with improved figure of merit using dip detection, Optics Letters, 40, 4388-91 (2015). 139. Avner Safrani and Ibrahim Abdulhalim, High speed 3D imaging using two wavelengths parallel phase shift interferometry, Optics Letters 40, 4651-4 (2015). 140. Mohammad Abutoama and Ibrahim Abdulhalim, Self-referenced Biosensor based on Thin Dielectric Grating Combined with Thin Metal Film, Optics Express 23, 28667-82 (2015). 141. Ashok Chaudhary, Matvey Klebanov and Ibrahim Abdulhalim, PbS nanoSculptured Thin Film for Phase Retarder, Anti-Reflective, Excellent Absorber, Polarizer and Sensor Applications, Nanotechnology 26, 465703 (11p) (2015). 142. Michael Ney and I. Abdulhalim, Ultrahigh polarimetric image contrast enhancement for skin cancer diagnosis using InN plasmonic nanoparticles in the THz range, J. Biomed. Optics 20, 125007(14p) (2015). 143. Asi Solodar, Tatipamula Arun Kumar, Gabby Sarusi, and Ibrahim Abdulhalim, Infrared to Visible Image up-conversion using Optically Addressed Spatial Light Modulator utilizing Liquid Crystal and InGaAs Photodiodes, Appl. Phys. Lett. 108, 021103-6p (2016). 144. Yitzhak August, Yaniv Oiknine, Marwan AbuLeil, Ibrahim Abdulhalim, and Adrian Stern, Miniature Compressive Ultra-spectral Imaging System Utilizing a Single Liquid Crystal Phase Retarder, Nature Scientific Reports 6:23524 (2016). DOI: 10.1038/srep23524. 145. Marwan Abuleil and Ibrahim Abdulhalim, Narrowband multispectral liquid crystal tunable filter, Opt. Lett. 51, 1957-60 (2016). 146. Michael Ney, Avner Safrani, Ibrahim Abdulhalim, Instantaneous high-resolution focus tracking and a vibrometery system using parallel phase shift interferometry, J. Opt. A (Letters) 18, 09LT05 (5pp) (2016). Selected as the paper of the week by the editor! 147. Anran Li, Sachin Srivastava, Ibrahim Abdulhalim, Shuzhou Li, Engineering the Hot Spots in Squared Arrays of Gold Nanoparticles on a Silver Film, Nanoscale 8, 15658-664 (2016). 148. Yujie Ke, Igal Balin, Ning Wang, Qi Lu, Alfred Tok Iing Yoong, Timothy J. White, Shlomo Magdassi, Ibrahim Abdulhalim and Yi Long, Two-Dimensional SiO2/VO2 Photonic Crystals with Statically Visible and Dynamically Infrared Modulated for Smart Window Deployment, ACS Applied Materials & Interfaces, 8, 33112-20, (2016). DOI: 10.1021/acsami.6b12175 149. Sachin K. Srivastava, Anran Li, Shuzhou Li, Ibrahim Abdulhalim, Optimal Interparticle Gap for Ultra-high Field Enhancement by LSP Excitation via ESPs and Confirmation using SERS, J. Phys. Chem. C 120, 28735-42 (2016). DOI: 10.1021/acs.jpcc.6b08276 150. Nina Sheremet, Lewis Sharpnack, Miri G. Kerzhner, Ashok Chaudhary, T. Arun Kumar, M. Kelbanov, I. Abdulhalim, Satyendra Kumar, and Yu Reznikov, Liquid Crystal Photoalignment on As2S3 Thin Films, J. Phys. D 50, 065306-8pp (2017). doi:10.1088/1361-6463/50/6/065306 151. Michael Ney, Avner Safrani, Ibrahim Abdulhalim, Three wavelengths parallel phase-shift interferometry for real-time focus tracking and vibration measurement, Optics Letter 42, 719-22 (2017). https://doi.org/10.1364/OL.42.000719 152. Sachin K. Srivastava, Christoph Gruner, Dietmar Hirsch, Bernd Rauschenbach, Ibrahim Abdulhalim, Enhanced intrinsic fluorescence from carboxidized nano-sculptured thin films of silver and their application for label free dual detection of glycated hemoglobin, Optics Express 25, 4761-72 (2017). https://doi.org/10.1364/OE.25.004761 153. Mohammad Abutoama and Ibrahim Abdulhalim, Angular and Intensity modes self-referenced refractive index sensor based on thin dielectric grating combined with thin metal film, IEEE J. Selected Topics in Quantum Electronics, 23, 4600309 (2017). DOI: 10.1109/JSTQE.2016.2520878 154. Ibrahim Watad and I. Abdulhalim, Spectropolarimetric Surface Plasmon Resonance Sensor and the Selection of the Best Polarimetric Function, IEEE J. Selected Topics in Quantum Electronics, 23, 4600609 (2017). DOI: 10.1109/JSTQE.2016.2575543 155. Andrey Nazarov, Ibrahim Abdulhalim, Universal form of the equations governing membrane deformation under hydrostatic pressure for simpler design of sensors and tunable optical devices, Sens.Actu. A: Physical 257, 113-117 (2017). http://dx.doi.org/10.1016/j.sna.2017.02.020 156. Andrey Nazarov, Boris Knyazer, Tova Lifshitz, Mark Schvartzman, Ibrahim Abdulhalim, Assessment of intraocular pressure sensing using an implanted reflective flexible membrane, J. Biomed. Opt., 22(4), 047001 (2017), doi: 10.1117/1.JBO.22.4.047001. 157. Lewis Sharpnack, Miri G. Kerzhner, Deña M. Agra-Kooijman, Ashok Chaudhary, T. Arun Kumar, M. Kelbanov, N. Sheremt, Yu Reznikov, I. Abdulhalim, and Satyendra Kumar, Morphological Anisotropy of Nano-Dimensional Arsenic triSulfide Glass Films and Liquid Crystal Photoalignment, Molec.Crys.Liq.Crys., 147, 1-13 (2017). http://dx.doi.org/10.1080/15421406.2017.1289619 158. N. Shukron, A. Solodar. A. Aizen, I. August. I. Klapp. Y. Yitzhaky, I. Abdulhalim, Optimized depth of field methodology using annular liquid crystal modulator assisted by image processing, Appl. Opt. 56, 3764-72 (2017). https://doi.org/10.1364/AO.56.003764 159. I. Watad and I. Abdulhalim, Comparative study between polarimetric and intensity based surface plasmon resonance sensors in the spectral mode, Appl. Opt., 56, 7549-58, (2017). https://doi.org/10.1364/AO.56.007549 160. Ausra Cerkauskaite, Rokas Drevinskas, Asi Solodar, Ibrahim Abdulhalim, and Peter G. Kazansky, Form-birefringence in ITO thin films engineered by ultrafast laser nanostructuring, ACS Photonics, 4, 2944-51 (2017). DOI: 10.1021/acsphotonics.7b01082 161. Mohammad Abutoama, Shuzhou Li and Ibrahim Abdulhalim, Widening the spectral range of ultrahigh field enhancement by efficient coupling of localized to extended plasmons and cavity resonances in grating geometry, J. Phys. Chem. C, 121, 27612-23 (2017). DOI: 10.1021/acs.jpcc.7b09756 162. Ashok Chaudhary, Matoi Klebanov and Ibrahim Abdulhalim, Liquid crystals alignment with PbS nanosculptured thin films, Liq. Cryst., 45, 3-10 (2018), DOI:10.1080/02678292.2017.1290286 163. Miri Gelbaor Kirzhner, Tatipamula Arun Kumar, Ashok, Chaudhary, Matvey Klebanov, Ibrahim Abdulhalim, Polar anchoring energy measurement of photoaligned nematic liquid crystal on nanodimensional chalcogenide glass films, Journal of Molecular Liquids 267, 182–186 (2018). 164. Amir Aizen, Michael Ney, Avner Safrani and Ibrahim Abdulhalim, A compact real-time high-speed high-resolution vibrometer, surface profiler and dynamic focus tracker using three wavelengths parallel phase-shift interferometry, Optics and Lasers in Engineering 107, 304-314 (2018). https://doi.org/10.1016/j.optlaseng.2018.04.007 165. Weijing Shao, Zhiqiang Liang, Tianfu Guan, Jianmei Chen, Zhifang Wang, Haihua Wu, Jianzhong Zheng, Ibrahim Abdulhalim, Lin Jiang, One-Step Integration of a Multiple-Morphology Gold Nanoparticle Array on a TiO2 Film via a Facile Sonochemical Method for Highly Efficient Organic Photovoltaics, J. Mater.Chem. A 6, 8419-8429 (2018). 166. A. Solodar, A. Cerkauskaite, R. Drevinskas, P. G. Kazansky and I. Abdulhalim, Ultrafast Laser Induced Nanostructured ITO for Liquid Crystal Alignment and Higher Transparency Electrodes, Appl.Phys.Lett. 113, 081603 (2018). Also in arXiv:1802.09757 [physics.optics] https://doi.org/10.1063/1.5040692 167. Asi Solodar, Ghadah AlZaidy, Chung-Che Huang, Daniel W. Hewak, Ibrahim Abdulhalim, Transition Metal Chalcogenide Tin Sulfide Nanodimensional Films Align Liquid Crystals, in process. arXiv:1802.01401 [physics.app-ph] 168. A. Baruch-Leshem, S. Isaacs, S. K. Srivastava, I. Abdulhalim, A. Kushmaro, H. Rapaport, Quantitative Assessment of Paraoxon Adsorption to amphiphilic ß-sheet Peptides Presenting the Catalytic Triad of Esterases. J. Colloids. Int. Sci., 530, 328–337 (2018). 169. Andrey Nazarov, Michael Ney and Ibrahim Abdulhalim, Compact and fast sub-nm scale displacement probe using a phase mask and parallel phase-shift interferometry, J. Phys. D 51, 335102(8pp) (2018). 170. I. Abdulhalim, Coupling configurations between extended surface electromagnetic waves and localized surface plasmons for ultrahigh field enhancement, Nanophotonics 7(12), 1891–1916 (2018). Invited review article! 171. P. Lakshmi Madhuri, R.J. Martin-Palma, B. Martín-Adrados, Ibrahim Abdulhalim, Voltage controlled scattering from porous silicon Mie-particles in liquid crystals, J. Molec. Liqu., 281, 108-116 (2019). https://doi.org/10.1016/j.molliq.2019.02.085 172. Asi Solodar, Hadar Manis‐Levy¬¬, Gabby Sarusi and Ibrahim Abdulhalim, A Highly Sensitive Liquid Crystal Optically Addressed Spatial Light Modulator for Infrared to Visible Image Up-Conversion, Optics Letters 44, 1259-1272 (2019). https://doi.org/10.1364/OL.44.001269 173. Ibrahim Watad and Ibrahim Abdulhalim, Phase-shifted polarimetric surface plasmon resonance sensor using a liquid crystal retarder and a diverging beam, Optics Letters 44, 1607-1610 (2019). 174. Sivan Isaacs, Etienne Harté, Isabel D. Alves and Ibrahim Abdulhalim, Improved Detection of Plasmon Waveguide Resonance Using Diverging Beam, Liquid Crystal Retarder, and Application to Lipid Orientation Determination, Sensors 19, 1402(12p), (2019); doi:10.3390/s19061402 175. Marwan J. Abuleil and Ibrahim Abdulhalim, Broadband ellipso-polarimetric camera utilizing tunable liquid crystal achromatic waveplate with improved field of view, Optics Express 27 (9) 12011-24 (2019). 176. Igal Balin, Shancheng Wang, Peikui Wang, Yi Long and Ibrahim Abdulhalim, Enhanced Transition Temperature Reduction in Half Sphere Au/VO2 Core-shell Structure: Local Plasmonics versus Induced Stress and Percolation Effects, Phys.Rev.App., 11, 034064(13p) (2019). DOI: 10.1103/PhysRevApplied.11.034064 177. Ibrahim Abdulhalim, Tunable filter and modulator with controlled bandwidth and wide dynamic range based on planar thin films structure, Optics Express 27(11), 16156-167 (2019). 178. Tingmei Zhang, Jianzhong Zheng, Zhiqiang Liang, Bo Zhao, Huajie Zeng, Wei Guo, Liang Zhao, Yinghui Sun, Ibrahim Abdulhalim, Lin Jiang, Coordination competition-driven synthesis of triple-shell hollow α-Fe2O3 microspheres for lithium ion batteries, Electrochemica Acta 306, 151-158 (2019). 179. Mohammad Abutoama, Sivan Isaacs, Michael Ney, Liubiao Zhong, Dong Li, Lin Jiang, Ibrahim Abdulhalim, Ultrahigh Field Enhancement Optimization versus Rabi Splitting Investigated using Au Nano-Bipyramids on Metal Film, J. Phys. Chem. C, 123, 12984-96 (2019). 180. Ibrahim Abdulhalim, P. Lakshmi Madhuri, Mahmud Diab, Taleb Mokari, Novel easy to fabricate liquid crystal composite with potential for electrically or thermally controlled transparency windows, Optics Express, 27(12), 17387-401 (2019). 181. Dorin Harpaz, Brescia Koh, Robert S. Marks, Raymond C. S. Seet, Ibrahim Abdulhalim and Alfred I. Y. Tok, Point-of-Care Surface Plasmon Resonance Biosensor for Stroke Biomarkers NT-proBNP and S100β using a Functionalized Gold Chip with Specific Antibody, Sensors, 19, 2533(16p) (2019). 182. Sivan Isaacs, Ansar Hajoj, Mohammad Abutoama, Alexander Kozlovsky, Erez Golan and Ibrahim Abdulhalim, Resonant Grating without a Planar Waveguide Layer as a Refractive Index Sensor, Sensors 19, 30003 (13p) (2019). 183. Igal Balin, Valery Garmider, Long Yi and Ibrahim Abdulhalim, Training artificial neural network for optimization of nanostructured VO2 based smart window performance, Optics Express, 27(16), 1030—040 (2019). 184. Zhiqiang Liang, Tianfu Guan, Qi Zhang, Weijing Shao, Jianmei Chen, Jianzhong Zheng, Dong Li, Ibrahim Abdulhalim, Lin Jiang, Double-Sided Asymmetric Surface Modification of ZnO Interfacial layer to Enhance Performance in Organic Solar Cells, Appl.Phys.Lett. 115, 091604 (2019); https://doi.org/10.1063/1.5095490. 185. Shauli Shmilovich, Liat Revah, Yaniv Oiknine, Isaac August, Ibrahim Abdulhalim and Adrian Stern, Fast Method for Liquid Crystal Cell Spatial Variations Estimation Based on Modeling the Spectral Transmission, Sensors 19, 3874 (2019). https://doi:10.3390/s19183874 186. J. Zhang, Y. Sun, R. Feng, W. Liang, W. Guo, Z. Liang, J. Y. Qu, I. Abdulhalim, C. W. Qiu and L. Jiang, Plasmonic Nanoparticle-Film-assisted Photoelectrochemical Catalysis across Entire Visible-NIR Region, Nanoscale 11, 23058-63 (2019). https://doi:10.1039/C9NR07191A 187. W. K. Liang, D. Li, Y. H. Sun, Z. Y. Li, L. Zhao, L. B. Zhong, J. C. Zhang, Z. Q. Liang, I. Abdulhalim, L. Jiang, Growing In-Plane Multiplex Plasmonic Arrays for Synergistic Enhanced Photocurrent Response, Advanced Materials and Interfaces, 1900966, 7pp (2019). https://doi.org/10.1002/admi.201900966 188. Dorin Harpaz, Brescia Koh, Raymond C.S. Seet, Ibrahim Abdulhalim, Alfred I.Y. Tok, Functionalized silicon dioxide self-referenced plasmonic chip as point-of care biosensor for stroke biomarkers NT-proBNP and S100β, Talanta 212, 120792(11p) (2020). https://doi.org/10.1016/j.talanta.2020.120792 189. Shauli Shmilovich, Yaniv Oiknine, Marwan AbuLeil, Ibrahim Abdulhalim, Dan G. Blumberg & Adrian Stern, Dual-camera design for hyperspectral and panchromatic imaging, using a wedge shaped liquid crystal as a spectral multiplexer, Nature Scientific Reports 10, 3455(13p) (2020). https://doi.org/10.1038/s41598-020-60413-8 190. Andrey Nazarov, Michael Ney and Ibrahim Abdulhalim, Parallel spectroscopic ellipsometry for ultra-fast thin film characterization, Optics Express 28(7), 9288-9308 (2020). https://doi.org/10.1364/OE.28.009288 191. Pappu Lakshmi Madhuri, Shuddhodana, Zaher M. A. Judeh, and Ibrahim Abdulhalim, Cochleate-Doped Liquid Crystal as Switchable Metamaterial Window Mediated by Molecular Orientation Modified Aggregation, Part. Part. Syst. Charact., 2000067(8p) (2020). https://doi.org/10.1002/ppsc.202000067 192. Vasyl Shvalya, Gregor Filipič, Damjan Vengust, Janez Zavašnika, Martina Modica, Ibrahim Abdulhalim, Uroš Cvelbar, Reusable Au/Pd-coated chestnut-like copper oxide SERS substrates with ultra-fast self-recovery, Applied Surface Science 517, 146205(11p) (2020). https://doi.org/10.1016/j.apsusc.2020.146205 193. Ibrahim Watad, Marwan Abuleil, Ibrahim Abdulhalim, Spectro-Ellipsometric Surface Plasmon Resonance Sensor Using a Liquid Crystal Achromatic Waveplate, IEEE Photonics Technology Letters 32(9), 550-553 (2020). https://doi.org/10.1109/LPT.2020.2984015 194. Ashok Chaudhary, Ravi K. Shukla, Matvey Klebanov, Ibrahim Abdulhalim, Porous lead sulphide nanowalls structured film for ethanol detection in the short infrared regime,” J. Nanophoton. 14(2), 026012 (2020). https://doi.org/10.1117/1.JNP.14.026012 195. Mohammad Abutoama, Aabha Bajaj, Dong Li, Yawen Wang, Lin Jiang, and Ibrahim Abdulhalim, Resonant modes of reflecting gratings engineered for multimodal sensing, APL Photonics, 5, 076108 (2020). https://doi.org/10.1063/5.0011306 196. Vasyl Shvalya, Gregor Filipič, Janez Zavašnik, Ibrahim Abdulhalim, Uroš Cvelbar, Surface-enhanced Raman spectroscopy for chemical and biological sensing using nanoplasmonics: The relevance of interparticle spacing, and surface morphology, Appl. Phys. Rev. 7, 031307 (2020); https://doi.org/10.1063/5.0015246 197. Saranya Bhupathi, Shancheng Wang, Mohammad Abutoama, Igal Balin, Lei Wang, Peter G. Kazansky, Yi Long, Ibrahim Abdulhalim, ACS Applied Materials&Interfaces, Femtosecond Laser-Induced Vanadium Oxide Metamaterial Nanostructures and the Study of Optical Response by Experiments and Numerical Simulations, ACS Applied Materials and Interfaces 12, 37 (2020). https://doi.org/10.1021/acsami.0c03844 198. Anand M. Shrivastav, Uroš Cvelbar, Ibrahim Abdulhalim, A comprehensive review on plasmonic-based biosensors used in viral diagnostics, Nature Communications Biology, 4:70 (2021). https://doi.org/10.1038/s42003-020-01615-8. Invited Review Article. 199. Simone Balbinot, Anand Mohan Srivastav, Jasmina Vidic, Ibrahim Abdulhalim, Marisa Manzano, Plasmonic Sensors for Food Control, Trends in Food Science & Technology, 11, 128-140 (2021). https://doi.org/10.1016/j.tifs.2021.02.057. Invited Review Article. 200. Mohammad Abutoama, Marwan Abuleil and Ibrahim Abdulhalim, Resonant Subwavelength and Nano-Scale Grating Structures for Biosensing Application: A Comparative Study, Sensors, 21, 4523 (2021). https://doi.org/10.3390/s21134523 201. Anand M. Shrivastav, Lakkakula Satish, Ariel Kushmaro, Vasyl Shvalya, Uroˇs Cvelbar, Ibrahim Abdulhalim, Engineering the penetration depth of nearly guided wave surface plasmon resonance towards application in bacterial cells monitoring, Sensors & Actuators: B. Chemical 345, 130338 (2021). https://doi.org/10.1016/j.snb.2021.130338 202. P. Lakshmi Madhuri, Saranya Bhupathi, Shuddhodana, Zaher M A Judeh, Sheng-Hsiung Yang, Long Yi, Ibrahim Abdulhalim, Hybrid Vanadium Dioxide - Liquid Crystal Tunable Non-Reciprocal Scattering Metamaterial Smart Window for Visible and Infrared Radiation Control, Optical Materials Express, 11(8), 3023-37 (2021). Top downloaded in December 2021!. Highlighted in Spotlights in Optics: https://www.osapublishing.org/spotlight/summary.cfm?id=457342 203. Saranya Bhupathi, Mohammad Abutoama, Yi Long, and Ibrahim Abdulhalim, Sculptured Thin Film Vanadium dioxide Thermochromic Coatings Grown by Oblique Angle Deposition: Investigation of Transmittance Response and Modulation Enhancement by Experiment and Theoretical Modeling, J. Mater. Chem. C 9, 13304-16p (2021). https://doi.org/10.1039/d1tc02649f 204. Aabha Bajaj, Anand M. Shrivastav, Evgeny Eltzov, Noam Alkan, and Ibrahim Abdulhalim, Detection of necrotrophic DNA marker of anthracnose causing Colletotrichum gloeosporioides fungi in harvested produce using surface plasmon resonance, Talanta 235, 122776 (2021). https://doi.org/10.1016/j.talanta.2021.122776 205. Marwan J. AbuLeil, Doron Pasha, Isaac August, Evgeny P. Pozhidaev, Vadim A. Barbashov, Timofey P. Tkachenko, Artemy V. Kuznetsov and Ibrahim Abdulhalim, Helical Nanostructures of Ferroelectric Liquid Crystals as Fast Phase Retarders for Spectral Information Extraction Devices: A Comparison with the Nematic Liquid Crystal Phase Retarders, Materials 14, 5540(22p) (2021). Featured Articles! https://doi.org/10.3390/ma14195540 206. Amir Aizen and Ibrahim Abdulhalim, Phase unwrapping using the extracted degree of coherence and phase from phase shifting interferometry systems, Optics Express 29(21), pp. 34278-34292, (2021). https://doi.org/10.1364/OE.432764 207. Neelakandan M. Santhosh, Vasyl Shvalya, Martina Modic, Nataša Hojnik, Janez Zavašnik, Jaka Olenik, Martin Košiček, Gregor Filipič, Ibrahim Abdulhalim, and Uroš Cvelbar, Label-Free Mycotoxin Raman Identification by High Performing Plasmonic Vertical Carbon Nanostructures, Small 2103677(11p) (2021). https://doi.org/10.1002/smll.202103677 208. Vladimir Semenov, Xavier Porte, Ibrahim Abdulhalim, Laurent Larger, Daniel Brunner, Two-color optically-addressed spatial light modulator as generic spatio-temporal systems, Chaos 31, 121104 (2021); https://doi.org/10.1063/5.0076846.Physics arxive arXiv:2111.01423 [physics.optics]. 209. Arun Kumar Tatipamula, Miri Gelbaor Kirzhner, Ashok Chaudhary, Matvey Klebanov, I. Abdulhalim, Electro-Optical properties of photoaligned Liquid Crystal cells prepared with obliquely irradiated Chalcogenide glasses, Molecular Liquids, 349, 118087(2022). https://doi.org/10.1016/j.molliq.2021.118087 210. Chih-Yu Chang, You-Wei Wu, Sheng-Hsiung Yang, and Ibrahim Abdulhalim, Preparation of Nickel Oxide Nanoflakes for Carrier Extraction and Transport in Perovskite Solar Cells, Nanomaterials 12, 3336(2022). https://doi.org/10.3390/nano12193336 211. Vasyl Shvalya, Aswathy Vasudevan, Martina Modic, Mohammad Abutoama, Cene Skubic, Nejc Nadižar, Janez Zavašnik, Damjan Vengust, Aleksander Zidanšek, Ibrahim Abdulhalim, Damjana Rozman, and Uroš Cvelbar, Bacterial DNA Recognition by SERS Active Plasma-Coupled Nanogold, Nano Letters, 22(23), 9757-65 (2022). https://doi.org/10.1021/acs.nanolett.2c02835 212. Aabha Bajaj, Jakob Trimpert, Ibrahim Abdulhalim, Zeynep Altintas, Synthesis of molecularly imprinted polymer nanoparticles for SARS-CoV-2 virus detection using surface plasmon resonance, Chemosensors 10, 459(19pp) (2022). https://doi.org/10.3390/chemosensors10110459 213. Neetika Singh, Anand M. Shrivastav, Nipun Vashistha and Ibrahim Abdulhalim, 3D plasmonic hot spots network via gold decorated deep micro-porous silicon exhibiting ultrahigh- SERS enhancement with application to explosives detection, Sensors & Actuators: B. Chemical 374 (2023) 132813. https://doi.org/10.1016/j.snb.2022.132813 214. Nipun Vashistha, Marwan J. Abuleil, Anand M. Shrivastav, Aabha Bajaj and Ibrahim Abdulhalim, Real-Time Ellipsometric Surface Plasmon Resonance Sensor Using Polarization Camera May Provide the Ultimate Detection Limit, Biosensors 13, 173(17pp) (2023). https://doi.org/10.3390/bios13020173 215. Majd Abu Aisheh, Mohammad Abutoama, Marwan Abuleil, Ibrahim Abdulhalim, Fast tunable metamaterial liquid crystal achromatic waveplate, Nanophotonics 12(6), 1115-1127 (2023). https://doi.org/10.1515/nanoph-2022-0656 216. Doron Pasha, Marwan J. Abuleil, Isaac August, Ibrahim Abdulhalim, Faster multispectral imager based on thin liquid crystal modulator and 3D neural network lattice, Lasers&Photonics Review 2200913(8p) (2023). https://doi.org/10.1002/lpor.202200913 217. Aabha Bajaj, Mohammad Abutoama, Sivan Isaacs, Marwan J. Abuleil, Karin Yaniv, Ariel Kushmaro, Martina Modic, Uroš Cvelbar, and Ibrahim Abdulhalim, Biofilm growth monitoring using guided wave ultralong-range Surface Plasmon Resonance: A proof of concept, Biosensors and Bioelectronics 228, 115204 (2023). https://doi.org/10.1016/j.bios.2023.115204 218. Stefan Jaric, Aabha Bajaj, Vladimir Vukic, Ivana Gadjanski, Ibrahim Abdulhalim, and Ivan Bobrinetskiy, Label-Free Direct Detection of Cylindrospermopsin via Graphene-Enhanced Surface Plasmon Resonance Aptasensor, Toxins 15, 326 (2023). https://doi.org/10.3390/toxins15050326 (d) Patents 1. K. M. Johnson, C. M. Mao, and I. Abdulhalim, Optically Addressable Spatial Light Modulator Having a Distorted Helix Ferroelectric Liquid Crystal Member, U.S. Patents No' 5,073,010, Dec. 17, 1991. 2. I. Abdulhalim, C.N. Pannell, D.N. Payne, Acousto-Optic Modulator, U.K Patents GB2269237, Feb. 1994. 3. Y. Xu, I. Abdulhalim, Spectroscopic Scatterometer System – U.S. Patents No' 6,483,580 Nov. 19, 2002. 4. Y. Xu, I. Abdulhalim, Measuring a Diffracting Structure, Broadband, Polarized, Ellipsometric and an Underlying Structure – International Publications No’: WO45340A1, Sept. 1999. European Patent No’: EP1073876A1. Australian Patent No’: AU3310999A1. 5. I. Abdulhalim, M. Adel, M. Friedmann, M. Faeyrman, - Periodic Patterns and Techniques to Control Misalignment between two layers, - US Patents no' 7,656,528, Feb. 2010 (originally filed in 2003). 6. S. Lakkaparagada, K.A. Brown, M. Hankinson, A. Levy and I. Abdulhalim, - Methods and Systems for Lithography Process Control, US patent no’ 2004/0005507, Jan. 8. 2004. 7. A. Levy, K.A. Brown, S. Rodney, G. Bultman, M. Nikoonahad Mehrdad, D. Wack, J. Fielden, and I. Abdulhalim, Methods and systems for determining a critical dimension and overlay of a specimen, US patent no’ 7,751,046, Jan. 2010 (filed originally in 2004). 8. I. Abdulhalim, Polarization insensitive birefringent tunable filters – WO/2008/068753, PCT/IL2007/001497, 2007, US patent number US 2009/0284708. 9. I. Abdulhalim, Z. Zalevsky, High resolution extended depth of full field optical coherence tomography system, US patent # 8860948, October 14, 2014. 10. I. Abdulhalim, Optical Sensor with Enhanced Sensitivity, Patent application no' WO2012/111001 A2, February 14, 2012. US patent application, # US 2013/0323858, Dec. 5, 2013. US patent # US 9,518,926 B2, granted in Dec. 13, 2016. 11. I. Abdulhalim and A. Safrani, True-spectroscopic dual mode high resolution full-field optical coherence tomography using liquid crystal devices, Patent Application submitted in April 23, 2013, WO 2013/160890 A1; US Patent # US20150109623, US9310186B2, April 12, 2016. 12. I. Abdulhalim, Optical sensor based on multilayered plasmonic structure comprising a nanoporos metallic layer, PCT/IL2014/050522, WO2015/019341 A1. US patent # US10048200B2, Aug. 14, 2018. 13. Iftach Klapp, Asi Solodar and I. Abdulhalim, Method for Extended Depth of Field Imaging, PCT/IL2014/051050, WO2015/083162 A1, Dec. 3, 2014. 14. A. Safrani and I. Abdulhalim, Real time dual mode full field optical coherence microscopy with full range imaging, PCT/IL2015/050115, Feb. 2, 2015. US patent # US10190867B2, January 29, 2019. 15. Ibrahim Abdulhalim and Marwan Abuleil, Tunable achromatic waveplates, US patent application US20160048049A1, Feb, 18, 2016. US 10,146,094 B2, Dec. 4, 2018; IL252256; Divisional for diagnosis: US 10, 634, 560 B2, April 2020. 16. Ibrahim Abdulhalim, Multispectral polarimetric variable optical device and imager, Nov. 24, 2016, PCT IL2015/051092, WO2016/075694 A1, US Patent # 10,048,200 B2 issued in Aug. 14, 2018. 17. Avner Safrani, Ibrahim Abdulhalim, Vicki Michael, Gabby Sarusi, SWIR to visible up-conversion optical system, PCT/IL2016/050617, June 13, 2016. US patent # US10126582B2, Nov. 13, 2018. 18. Ibrahim Abdulhalim, Resonant Periodic structures and methods of using them as filters and sensors, PCT/IL2016/050914, August 21, 2016; US Patents US2018/0202928 A1, July 2018, US10,801,956 B2, October 2020. 19. Avner Safrani, Michael Ney and Ibrahim Abdulhalim, Multiple Wavelength Real Time Phase Shift Interference Microscopy, PCT/IL2017/050989, US application #15/260398, US patent #9880377B1, Jan. 30, 2018. 20. Ibrahim Abdulhalim, Spectral and phase modulation birefringence devices, WO2019043682 A1, March 7, 2019; PCT/IL/2018/050756, July 2018; US application 20210072570, March 2021; US patent US 11,112,671 B2, Sep. 2021; US divisional application US2021/0240019A1, Aug. 2021; EP 18756302.8, March 2020; US patent US 11,567,381B2 Jan. 31, 2023 (divisional on smart windows). 21. Ibrahim Abdulhalim, Hisham Abdulhalim, An optical device capable of responding to a writing long-wave radiation, WO2020/070749 A1, October 2018; PCT/IL2029/051087, Oct. 2019; US application US2021/0349354 A1, Nov. 2021; EP application 19794265.9, May 2021. (e) Provisional Patent Applications-Partial list 1. I. Abdulhalim, W. Park, Tera-Hertz Superresolved Optical Imaging using Negative Index Lens, Oct. 2005. 2. I. Abdulhalim, A. Lakhtakia, Optical biosensors using nano sculptured thin films, Oct. 2005. 3. I. Abdulhalim, Sensor and tunable device based on direct excitation of surface plasmons resonance, Aug. 2006. 4. I. Abdulhalim, Spectropolarimetric scatterometric skin imaging system, Dec. 2008. 5. Ofir Aharon, I. Abdulhalim, Tunable optical filter having large dynamic range, May 2009. 6. I. Abdulhalim and Miri Gelbaor, Chalcogenide glass photoalignment material for liquid crystals, January 27, 2011. 7. I. Abdulhalim, Switchable mirror and tunable filter incorporating helical liquid crystal and photosensitive resonant structure, May 6, 2011. 8. Michael Ney and I. Abdulhalim, Cancer Detection Method in the THz and mm Waves Range, May 2011. 9. I. Abdulhalim, Optical sensor with low detection limit, July 2012. 10. I. Abdulhalim, Optical Sensor and Tunable Filter and Method for Using the Same, September 2013. 11. I. Abdulhalim, Multi-spectral polarimetric variable optical device and imager, Nov. 2013. 12. Iftach Klapp, Asi Solodar and I. Abdulhalim, Method for Extended Depth of Field Imaging and Devices for Doing the Same, November 2013. 13. Avner Safrani and Ibrahim Abdulhalim, Multiple wavelengths, real time phase shift interference microscopy, submitted in July 2015. 14. Ibrahim Abdulhalim and Marwan Abuleil, Tunable achromatic waveplates, submitted August 2014. 15. Ibrahim Abdulhalim, Shuzhou Li, Anran Li, Sivan Isaacs, Extended SPR Excitation of LSPR and Devices using the Same, Provisional patent application number 62090469, submitted in December 11, 2014. 16. Avner Safrani, Viki Michael, Gabby Sarusi and Ibrahim Abdulhalim, SWIR to visible up-conversion optical system, Provisional patent application number 62/189,227, July 7, 2015. 17. Ibrahim Abdulhalim, George Barbastathis, Liquid crystal nanocomposite and its applications, Provisional patent application number 62/261,326, submitted Dec. 1, 2015. (f) Conference proceedings and other professional articles / reports 1. I. Abdulhalim “Optical properties of chiral smectic liquid crystals in their SmC phase” (M.Sc. Thesis in Hebrew) Department of Physics, Technion, Haifa, Israel 1985. 2. I. Abdulhalim “CW laser induced structural transformations in amorphous materials” (D.Sc. Thesis in Hebrew) Department of Physics, Technion, Haifa, Israel 1988. 3. I. Abdulhalim, B. Landreth, and G. Moddel, Analog optically addressed spatial light modulator with pseudocolor capability using helix distortion of ferroelectric liquid crystal,”, Society for Information Display International Symposium, Las Vegas, May 15-17, 1990, Digest of Technical Papers, Vol. 21 (SID, California, 1990), p. 330-333. 4. I. Abdulhalim and Chris Pannell, "FLAME", Research project report on "Fiber laser acoustooptic modulators", University of Southampton, Optoelectronics Research Center, Southampton, UK, 1993. 5. I. Abdulhalim, C.N. Pannell, L. Reekie, K.P. Jedrzejewski, E.R. Taylor, D.N. Payne, -Acousto-optically Q-Switched Fibre Laser Source of High Peak Power and Short Duration for Fibre Sensor Applications, Proc. of the 9th Optical Fibre Sensor conference (OFS-9), P.229, Firenze, May 1993. 6. A. B. Grudinin, D.J. Richardson, I. Abdulhalim, C.N. Pannell, D.N. Payne, Fibre Laser Source of Dual-Wavelength Femtosecond Pulses, Technical Digest of the 3rd Topical Meeting on Nonlinear Guided Wave Phenomena, Vol.15, p.371-374, Cambridge, UK, Sept 1993. 7. J. Allgair, D. C. Benoit, R. R. Hershey, L. C. Litt, I. S. Abdulhalim, M. Faeyrman, J. C., Robinson, U. K. Whitney, Y. Xu, Manufacturing Considerations for Implementation of Scatterometry for Process Monitoring, Proc. of SPIE Conference on Metrology, Inspection, and Process Control for Microlithography XIV Vol. 3998, 125, San Jose, March 2000. DOI:10.1117/12.386465. Invited paper. 8. J. Allgair, R. R. Hershey, L. C. Litt, D. C. Benoit, P. Herrera, A. Levy, Yiping Xu, U. K. Whitney, J. C., Robinson, B. Braymer, I. Abdulhalim, M. Faeyrman, “Spectroscopic CD Offers Higher Precision Metrology for sub-0.18um Linewidth Control,” KLA-Tencor Magazine on Yield Management Solutions, 8-13 (2002). 9. I. Abdulhalim, Anisotropic layers in waveguides for mode tuning and tunable filtering, Proc. SPIE Photonics West Conference, Liquid Crystal Materials, Devices, and Applications XI Vol. 6135, p. 179-188, 2006. Invited paper. 10. I. Abdulhalim, I. Gannot, C. N. Pannell, All-fiber and fiber compatible acousto-optic modulators with potential biomedical applications, Proc. SPIE Photonics West Conference, Optical Fibers and Sensors for Medical Diagnostics and Treatment Applications VI, Vol. 6083, p. 116-130, 2006. Invited paper. 11. I. Abdulhalim, Ron Friedman, Lior Liraz, Ronen Dadon, Full field frequency domain common path optical coherence tomography with annular aperture, Proceedings of SPIE, Optical Coherence Tomography and Coherence Techniques June 2007, Proc. SPIE, Vol. 6627, 662719 (2007); DOI:10.1117/12.727993. 12. I. Abdulhalim, Optical scatterometry with analytic approaches applied to periodic nano-arrays including anisotropic layers, Proceedings of the SPIE-Europe meeting on optical metrology, Munich, June 2007, Proc. SPIE, Vol. 6617, 661714 (2007); DOI:10.1117/12.726678. 13. Ofir Aharon, Avner Safrani, Riki Moses, I. Abdulhalim, Liquid crystal tunable filters and polarization controllers for biomedical optical imaging, SPIE Optics and Photonics, San Diego 2008, Proc. SPIE, Vol. 7050, 70500P (2008); DOI:10.1117/12.795388. Invited paper. 14. Amit Lahav, Mark Auslender and I. Abdulhalim, Sensitivity enhancement of guided wave surface plasmon resonance sensors using top nano dielectric layer, SPIE Optics and Photonics, San Diego 2008, Proc. SPIE, Vol. 7041, 70410A (2008); DOI:10.1117/12.794167. Invited paper. 15. I. Abdulhalim, Mark Auslender, Shlomo Hava, Grating based nanophotonic structures configurations for biosensing, SPIE Optics and Photonics, San Diego 2008, Proc. SPIE, Vol. 7035, 70350T (2008); DOI:10.1117/12.795897. 16. I. Abdulhalim, Akhlesh Lakhtakia, Amit Lahav, Fan Zhang, Jian Xu, Porosity effect on surface plasmon resonance from metallic sculptured thin films, SPIE Optics and Photonics, San Diego 2008, Proc. SPIE, Vol. 7041, 70410C (2008); DOI:10.1117/12.794135. Invited paper. 17. I. Abdulhalim, Alina Karabchevsky, Christian Patzig, Bernd Rauschenbach, Bodo Fuhrmann, Comparative study of enhanced fluorescence from nano sculptured thin films, SPIE Optics and Photonics, San Diego 2008, Proc. SPIE, Vol. 7041, 70410G (2008); DOI:10.1117/12.795139. Invited paper 18. I. Abdulhalim, "Increasing the sensitivity of surface Plasmon sensors", 21 January 2009, SPIE Newsroom – Nanotechnology section, January 21, (2009), DOI: 10.1117/2.1200901.1466. 19. O. Aharon and I. Abdulhalim, "Design of wide band tunable birefringent filters with liquid crystals", PIERS Conference in Moscow, PIERS (5), 555-560 (2009). 20. I. Abdulhalim, "The 13th Topical Meeting on the Optics of Liquid Crystals", Liquid Crystals Today 17 (2), 67-70 (2010). 21. Alex Zlotnik, Yoed Abraham, Lior Liraz, I. Abdulhalim and Zeev Zalevsky, Full Field Spectral Domain Optical Coherence Tomography with Improved Extended Depth of Focus, Proc. CLEO, paper number BUW45, (2010). 22. Alina Karabchevsky, Lev Tsapovsky, Robert S. Marks, I. Abdulhalim, "Optical immunosensor for endocrine disruptor nanolayer detection by surface plasmon resonance imaging," SPIE 8099, 809918-6 (2011). 23. Alina Karabchevsky, Christian Patzig, Bernd Rauschenbach, I. Abdulhalim, "Microspot surface enhanced fluorescence from sculptured thin films for control of antibody immobilization," SPIE 8104, 81040L-7 (2011). Won best students lecture award. 24. Hadar Reisman, Eugene P. Pozhidaev, Sofia I. Torgova and Ibrahim Abdulhalim, Nano-dimensional short pitch ferroelectric liquid crystal materials and devices with improved performance at oblique incidence, SPIE Optics and Photonics Conference, August 12-16, 2012, San Diego. paper number 8475-44. 25. Hadar Reisman, Drew P. Pulsifer, Raúl J. Martín-Palma, Akhlesh Lakhtakia, Roman Dabrowski, and Ibrahim Abdulhalim, On alignment of nematic liquid crystals in chiral sculptured thin films, SPIE Optics and Photonics Conference, August 12-16, 2012, San Diego. Poster presentation, paper number 8465-52. Won best students poster award. 26. Atef Shalabney and Ibrahim Abdulhalim, “Improving the performances of surface Plasmon resonance sensor in the infrared region by adding thin dielectric over-layer”, 2012 IEEE 27th Convention of Electrical and Electronics Engineers in Israel, Article number CFP12417-CDR, DOI: 10.1109/EEEI.2012.6377039. 27. Atef Shalabney, Chinmay Khare, Bernd Rauschenbach, and I. Abdulhalim, “Metallic Nanosculptured Thin Films for Biosensing Applications using Surface Plasmon Resonance and Enhanced Spectroscopies”, 2012 IEEE 27th Convention of Electrical and Electronic
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