REF1 P. Ben Ishai, C. E. M. de Oliveira, Y. Ryabov, Yu. Feldman, and A. J. Agranat, “Glass-forming liquid kinetics manifested in a KTN: Cu crystal”, Phys. Rev. B 70, pp. 132104-1 132104-4 (2004).
REF2 J. E. Geusic, S. K. Kurtz, L. G. Van Uitret, and S. H.Wemple, “Electrooptic properties of some ABO3 perovskites in the paraelectric phase”, Appl. Phys. Lett. 4, 141–143 (1964).
REF3 A. J. Agranat, R. Hofmeister, and A. Yariv, “Characterization of a New Photorefractive Material: K1-y LiyTa1-x NbxO3”, Optics Letters 17, 713 (1992) .
REF4 A. Gumennik, Y. Kurzweil-Segev and A. J. Agranat, “Electrooptical effects in glass forming liquids of dipolar nano-clusters embedded in a paraelectric environment”, Optical Materials Express 1 ( 5), pp. 803–815 (2011).
REF5 Y. Kabessa, A. Yativ, H. Ilan and A. J. Agranat, "Electro-Optical Modulation with Immunity to Optical Damage by Bipolar Operation in Potassium Lithium Tantalate Niobate", Optics express 23, pp. 4348-4356 (February 2015).
REF7 R. Hofmeister, S. Yagi, A. Yariv, and A. J. Agranat, "Growth and Characterization of KLTN:Cu,V Photorefractive Crystals", J. Cryst. Growth 131, pp 486-494 (1993).
REF8 A. J. Agranat, A. Gumennik, H. Ilan, “Refractive index engineering by fast ion implantations: a generic method for constructing multi-components electro-optical circuits”. Proc. SPIE, Conference 7604: Integrated Optics: Devices, Materials, and Technologies XIV, Photonics West, San Francisco 2010, paper no. 7604-33 (January 2010).
REF9 Y. Kabessa, V. Korouma, H. Ilan, S. Yagur-Kroll, S. Belkin, and A. J. Agranat. "Simultaneous quantification of the fluorescent responses of an ensemble of bacterial sensors". Biosensors & bioelectronics 49, pp. 394-8 (2013).
REF10 N. Sapiens and A. J. Agranat, "Full C-Band Tunable Laser based on Electroholography", Optics Letters 38, pp. 2131-2133 (2013).
REF11 N. Sapiens, A. Weissbrod, and A. J. Agranat, "Fast Electroholographic Switching", Optics Letters 34 (3) pp. 353-355 (Feb. 1st 2009).
REF12 N. Sapiens, A. Weissbrod, A. J. Agranat, "Sub Nanosecond Electroholographic Switching", Inter. Q. Elect. Conf., Paper# JWA31 (2009).
REF13 Y. Kabessa, O. Eyal, O. Bar-On, V. Korouma, S. Yagur-Kroll, S. Belkin, and A .J. Agranat, "Standoff Detection of Explosives and Buried Landmines Using Fluorescent Bacterial Sensor Cells", Biosensors & Bioelectronics 79 pp. 784- 788 (2016).
REF14 A .J. Agranat, "Electroholographic Artificial Neural Networks", Physika A 200, 608-612 (1993).
REF15 A. J. Agranat, V. Leyva, and A. Yariv, "Voltage Controlled Photorefractive Effect in Paraelectric KTa1-xNbxO3: Cu,V", Opt. Lett. 14 , 1017 (1989).
REF16 A. J. Agranat, R. Kaner, G. Perpelitsa and Y. Garcia, "Stable Electrooptic Striations Gratings Produced by Programmed Periodic Modulation of the Growth Temperature", Appl. Phys. Lett. 90, Art. No. 192902 (2007).
REF17 A. Bitman, N. Sapiens, G. Bartal, L. Secundo, M. Segev, and A. J. Agranat, “Electroholographic Tunable Volume Grating in the g44 Configuration”, Optics Letters 31 (19) pp. 2849-2851 (2006).
REF18 A. Gumennik, G. Perepelitsa, A. Israel and A. J. Agranat, "A tunable channel waveguide array fabricated by the implantations of He+ ions in an electrooptical KLTN substrate". Optics Express 17 (8), pp: 5919-6251 (2009).
REF19 A. Yashar (Badichi), H. Ilan, and A. J. Agranat "Construction of waveguiding structures in potassium lithium tantalate niobate crystals by combined laser ablation and Ion implantation", App. Phys. A-Mat. Sci. & Proces. 118 ( 2015).