Ukrainian Journal of Physical Optics
Volume 25, Issue 1, 2024

  1. HIGHLY DISPERSIVE SOLITONS IN OPTICAL COUPLERS WITH METAMATERIALS HAVING KERR LAW OF NONLINEAR REFRACTIVE INDEX.
    Elsayed M. E. Zayed, Mohamed E. M. Alngar, Reham M. A. Shohib, Anjan Biswas, Yakup Yildirim, Luminita Moraru, Puiu Lucian Georgescu, Catalina Iticescu and Asim Asiri. 2024. Ukr.J.Phys.Opt. 25: 01001 – 01019.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01001

  2. TEMPERATURE DEPENDENCES OF REFRACTIVE INDICES AND OPTICAL BIREFRINGENCE IN AMMONIUM FLUOROBERYLLATE.
    B. I. Horon, O. S. Kushnir and V. Yo. Stadnyk. 2024. Ukr.J.Phys.Opt. 25: 01020 – 01032.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01020

  3. HIGHLY DISPERSIVE GAP SOLITONS IN OPTICAL FIBERS WITH DISPERSIVE REFLECTIVITY HAVING PARABOLIC–NONLOCAL NONLINEARITY.
    Elsayed M. E. Zayed, Mohamed E. M. Alngar, Reham M. A. Shohib, Anjan Biswas, Yakup Yildirim, Carmelia Mariana Balanica Dragomir, Luminita Moraru and Asim Asiri. 2024. Ukr.J.Phys.Opt. 25: 01033 - 01044.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01033

  4. NANOMATERIALS FOR OPTOELECTRONICS: AN OVERVIEW.
    Golovynskyi S. 2024. Ukr.J.Phys.Opt. 25: 01045 - 01053.

    doi: 10.3116/16091833/24/5/S1/2023

  5. QUESCENT OPTICAL SOLITONS FOR THE DISPERSIVE CONCATENATION MODEL WITH KERR LAW NONLINEARITY HAVING NONLINEAR CHROMATIC DISPERSION.
    Elsherbeny Ahmed M., Arnous Ahmed H., Jawad Anwar Jafar Mohamad, Biswas Anjan, Yildirim Yakup, Moraru Luminita and Alshomrani Ali Saleh. 2024. Ukr.J.Phys.Opt. 25: 01054 – 01064.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01054

  6. COMPOSITE VORTEX BEAM GENERATION USING DICHROIC NEMATIC LIQUID CRYSTAL CELL WITH TOPOLOGICAL DEFECT.
    O.Krupych, T.Dudok, O.Mys, M.Kostyrko, I.Skab, Yu.Nastishin, T.Lavrut, Yu.Chahan, V.Nazarenko, O.Kurochkin and R.Vlokh. 2024. Ukr.J.Phys.Opt. 25: 01065 – 01072.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01065

  7. OPTICAL SOLITONS FOR THE CONCATENATION MODEL WITH KERR LAW NONLINEARITY BY LIE SYMMETRY .
    Sushmita Kumari Dubey, Sachin Kumar, Sandeep Malik, Anjan Biswas, Anwar Jafaar Mohamad Jawad, Yakup Yildirim, Luminita Moraru and Ali Saleh Alshomrani. 2024. Ukr.J.Phys.Opt. 25: 01073 – 01084.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01073

  8. A NEW FILTERLESS W-BAND MILLIMETER WAVE SIGNALS GENERATION SCHEME WITH FREQUENCY OCTUPLING BASED ON CASCADED MACH-ZEHNDER MODULATORS.
    Dongfei Wang, Yu Zhang, Zufang Yang, Lan Zhang, Baohong Wu, Xiaokun Yang,, Shuxia Yan and Xiangqing Wang 2024. Ukr.J.Phys.Opt. 25: 01085 – 01093.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01085

  9. OPTICAL SOLITONS FOR THE DISPERSIVE CONCATENATION MODEL BY LAPLACE-ADOMIAN DECOMPOSITION.
    O. Gonzalez-Gaxiola, Anjan Biswas, Yakup Yildirim and Anwar Jaafar Mohamad Jawad 2024. Ukr. J. Phys. Opt. 25: 01094 – 01105.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01094

  10. HOT CARRIER PHOTOCURRENT AS AN INTRINSIC LOSS IN A SINGLE JUNCTION SOLAR CELL.
    J.Gradauskas, O.Masalskyi, S.Asmontas, A.Suziedelis, A.Rodin and I.Zharchenko 2024. Ukr. J. Phys. Opt. 25: 01106 – 01112.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01106

  11. OPTICAL SOLITONS FOR THE CONCATENATION MODEL WITH DIFFERENTIAL GROUP DELAY HAVING MULTIPLICATE WHITE NOISE.
    Ahmed H. Arnous, Anjan Biswas, Yakup Yildirim, Anwar Jaafar Mohamad Jawad, Luminita Moraru, Simona Moldovanu, Carmelia Mariana Balanica Dragomir and Ali Saleh Alshomrani. 2024. Ukr. J. Phys. Opt. 25: 01113 – 01139.

    doi: 10.3116/16091833/Ukr.J.Phys.Opt.2024.01113

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