{"id":410,"date":"2024-07-24T12:16:21","date_gmt":"2024-07-24T12:16:21","guid":{"rendered":"https:\/\/thz.moscotin.ca\/?page_id=410"},"modified":"2024-09-18T09:19:35","modified_gmt":"2024-09-18T09:19:35","slug":"publications","status":"publish","type":"page","link":"https:\/\/thz.moscotin.ca\/?page_id=410","title":{"rendered":"Publications"},"content":{"rendered":"\n<div class=\"wp-block-group alignwide has-accent-background-color has-background has-global-padding is-layout-constrained wp-block-group-is-layout-constrained\" style=\"padding-top:var(--wp--preset--spacing--20);padding-bottom:var(--wp--preset--spacing--20)\">\n<h2 class=\"wp-block-heading has-text-align-left has-x-large-font-size\"><strong>2024<\/strong><\/h2>\n\n\n\n<ul class=\"wp-block-list is-style-default\">\n<li>Jorudas, J.; Rehman, H.; Cojocari, M.; Pashnev, D.; Urbanowicz, A.; Ka\u0161alynas, I.; Bertoni, B.; Vicarelli, L.; Pitanti, A.; Malykhin, S.; et al. Ultra-Broadband Absorbance of Nanometer-Thin Pyrolyzed-Carbon Film on Silicon Nitride Membrane. <em>Nanotechnology<\/em> <strong>2024<\/strong>, <em>35<\/em>, 305705, doi:10.1088\/1361-6528\/ad4157.<\/li>\n\n\n\n<li>Orlov, S.; Iva\u0161kevi\u010di\u016bt\u0117\u2010Povilauskien\u0117, R.; Mundrys, K.; Kizevi\u010dius, P.; Nacius, E.; Jokubauskis, D.; Ikamas, K.; Lisauskas, A.; Minkevi\u010dius, L.; Valu\u0161is, G. Light Engineering and Silicon Diffractive Optics Assisted Nonparaxial Terahertz Imaging. <em>Laser Photon. Rev.<\/em> <strong>2024<\/strong>, <em>18<\/em>, doi:10.1002\/lpor.202301197.<\/li>\n\n\n\n<li>Shuba, M. V.; Seliuta, D.; Abramova, V. Standing Wave Pattern Suppression in the Terahertz Frequency Domain Spectroscopy by Means of Windowed Fourier Filtering. <em>J. Infrared, Millimeter, Terahertz Waves<\/em> <strong>2024<\/strong>, <em>45<\/em>, 337\u2013348, doi:10.1007\/s10762-023-00964-9.<\/li>\n\n\n\n<li>Shuba, M. V.; Valu\u0161is, G.; Saroka, V.A. Ultraviolet \u03c0-Plasmon Contribution to the Transverse Optical Response of Doped Single-Walled Carbon Nanotubes. <em>Phys. Rev. B<\/em> <strong>2024<\/strong>, <em>109<\/em>, 165409, doi:10.1103\/PhysRevB.109.165409.<\/li>\n\n\n\n<li>Wahaia, F.; Ka\u0161alynas, I.; Karali\u016bnas, M.; Urbanowicz, A.; Seifert, B.; Valu\u0161is, G.; Ferraro, V. Effect of Bone Age and Anatomy on the Variability of the Bovine Bone By-Product by Terahertz Time-Domain Spectroscopy and Energy-Dispersive X-Ray Microanalysis. <em>Food Biosci.<\/em> <strong>2024<\/strong>, <em>59<\/em>, 103978, doi:10.1016\/j.fbio.2024.103978.<\/li>\n<\/ul>\n<\/div>\n\n\n\n<div class=\"wp-block-group alignwide has-contrast-3-background-color has-background has-global-padding is-layout-constrained wp-block-group-is-layout-constrained\" style=\"padding-top:var(--wp--preset--spacing--20);padding-bottom:var(--wp--preset--spacing--20)\">\n<h2 class=\"wp-block-heading has-text-align-left has-x-large-font-size\"><strong>2023<\/strong><\/h2>\n\n\n\n<ul class=\"wp-block-list is-style-default\">\n<li>Janonis, V.; Kacperski, J.; Selskis, A.; Balagula, R.M.; Prystawko, P.; Ka\u0161alynas, I. Directive and Coherent Thermal Emission of Hybrid Surface Plasmon-Phonon Polaritons in n-GaN Gratings of Linear and Radial Shapes. <em>Opt. Mater. Express<\/em> <strong>2023<\/strong>, <em>13<\/em>, 2662, doi:10.1364\/OME.494777.<\/li>\n\n\n\n<li>Urbonis, D.; Ragulis, P.; \u0160lekas, G.; Kamarauskas, A.; Seliuta, D.; Kancleris, \u017d. Symmetric and Asymmetric Fano Resonances in a Broken Axial Symmetry Metasurface of Split Ring Resonators. <em>J. Appl. Phys.<\/em> <strong>2023<\/strong>, <em>134<\/em>, doi:10.1063\/5.0167509.<\/li>\n\n\n\n<li>\u010ci\u017eas, V.; Alexeeva, N.; Alekseev, K.N.; Valu\u0161is, G. Coexistence of Bloch and Parametric Mechanisms of High-Frequency Gain in Doped Superlattices. <em>Nanomaterials<\/em> <strong>2023<\/strong>, <em>13<\/em>, 1993, doi:10.3390\/nano13131993.<\/li>\n\n\n\n<li>Ayyagari, S.R.; Indri\u0161i\u016bnas, S.; Ka\u0161alynas, I. Hybrid Multiphase Fresnel Lenses on Silicon Wafers for Terahertz Frequencies. <em>IEEE Trans. Terahertz Sci. Technol.<\/em> <strong>2023<\/strong>, <em>13<\/em>, 231\u2013236, doi:10.1109\/TTHZ.2023.3263638.<\/li>\n\n\n\n<li>Balagula, R.M.; Suba\u010dius, L.; Prystawko, P.; Ka\u0161alynas, I. Electro-Optical Modulation of Terahertz Beam by Drifting Space-Charge Domains in n-GaN Epilayers. <em>J. Appl. Phys.<\/em> <strong>2023<\/strong>, <em>133<\/em>, doi:10.1063\/5.0152661.<\/li>\n\n\n\n<li>Grigelionis, I.; \u010ci\u017eas, V.; Karali\u016bnas, M.; Jak\u0161tas, V.; Ikamas, K.; Urbanowicz, A.; Treideris, M.; Bi\u010di\u016bnas, A.; Jokubauskis, D.; Butkut\u0117, R.; et al. Narrowband Thermal Terahertz Emission from Homoepitaxial GaAs Structures Coupled with Ti\/Au Metasurface. <em>Sensors<\/em> <strong>2023<\/strong>, <em>23<\/em>, 4600, doi:10.3390\/s23104600.<\/li>\n\n\n\n<li>Iva\u0161kevi\u010di\u016bt\u0117-Povilauskien\u0117, R.; \u010ci\u017eas, V.; Nacius, E.; Grigelionis, I.; Redeckas, K.; Bernatonis, M.; Orlov, S.; Valu\u0161is, G.; Minkevi\u010dius, L. Flexible Terahertz Optics: Light Beam Profile Engineering via C-Shaped Metallic Metasurface. <em>Front. Phys.<\/em> <strong>2023<\/strong>, <em>11<\/em>, doi:10.3389\/fphy.2023.1196726.<\/li>\n\n\n\n<li>Leitenstorfer, A.; Moskalenko, A.S.; Kampfrath, T.; Kono, J.; Castro-Camus, E.; Peng, K.; Qureshi, N.; Turchinovich, D.; Tanaka, K.; Markelz, A.G.; et al. The 2023 Terahertz Science and Technology Roadmap. <em>J. Phys. D. Appl. Phys.<\/em> <strong>2023<\/strong>, <em>56<\/em>, 223001, doi:10.1088\/1361-6463\/acbe4c.<\/li>\n<\/ul>\n<\/div>\n\n\n\n<div class=\"wp-block-group alignwide has-accent-5-background-color has-background has-global-padding is-layout-constrained wp-block-group-is-layout-constrained\" style=\"padding-top:var(--wp--preset--spacing--20);padding-bottom:var(--wp--preset--spacing--20)\">\n<h2 class=\"wp-block-heading has-text-align-left has-x-large-font-size\"><strong>2022<\/strong><\/h2>\n\n\n\n<ul class=\"wp-block-list is-style-default\">\n<li>Jorudas, J.; Pashnev, D.; Ka\u0161alynas, I.; Ignatjev, I.; Niaura, G.; Selskis, A.; Astachov, V.; Alexeeva, N. Green Removal of DUV-Polarity-Modified PMMA for Wet Transfer of CVD Graphene. <em>Nanomaterials<\/em> <strong>2022<\/strong>, <em>12<\/em>, 4017, doi:10.3390\/nano12224017.<\/li>\n\n\n\n<li>Iva\u0161kevi\u010di\u016bt\u0117-Povilauskien\u0117, R.; Kizevi\u010dius, P.; Nacius, E.; Jokubauskis, D.; Ikamas, K.; Lisauskas, A.; Alexeeva, N.; Matulaitien\u0117, I.; Jukna, V.; Orlov, S.; et al. Terahertz Structured Light: Nonparaxial Airy Imaging Using Silicon Diffractive Optics. <em>Light Sci. Appl.<\/em> <strong>2022<\/strong>, <em>11<\/em>, 326, doi:10.1038\/s41377-022-01007-z.<\/li>\n\n\n\n<li>Tamo\u0161i\u016bnas, V.; Minkevi\u010dius, L.; Bu\u010dius, I.; Jokubauskis, D.; Redeckas, K.; Valu\u0161is, G. Design and Performance of Extraordinary Low-Cost Compact Terahertz Imaging System Based on Electronic Components and Paraffin Wax Optics. <em>Sensors<\/em> <strong>2022<\/strong>, <em>22<\/em>, 8485, doi:10.3390\/s22218485.<\/li>\n\n\n\n<li>\u0160ermuk\u0161nis, E.; Jorudas, J.; \u0160imukovi\u010d, A.; Kovalevskij, V.; Ka\u0161alynas, I. Self-Heating of Annealed Ti\/Al\/Ni\/Au Contacts to Two-Dimensional Electron Gas in AlGaN\/GaN Heterostructures. <em>Appl. Sci.<\/em> <strong>2022<\/strong>, <em>12<\/em>, 11079, doi:10.3390\/app122111079.<\/li>\n\n\n\n<li>Kamarauskas, A.; Seliuta, D.; \u0160lekas, G.; Sadauskas, M.; Kvietkauskas, E.; Trusovas, R.; Ratautas, K.; Kancleris, \u017d. Experimental Demonstration of Multiple Fano Resonances in a Mirrored Array of Split-Ring Resonators on a Thick Substrate. <em>Sci. Rep.<\/em> <strong>2022<\/strong>, <em>12<\/em>, 15846, doi:10.1038\/s41598-022-20434-x.<\/li>\n\n\n\n<li>Balagula, R.M.; Suba\u010dius, L.; Prystawko, P.; Ka\u0161alynas, I. Electro-Optical Modulation of Terahertz Beam by Drifting Space-Charge Domains in n-GaN Epilayers. <em>J. Appl. Phys.<\/em> <strong>2023<\/strong>, <em>133<\/em>, doi:10.1063\/5.0152661.<\/li>\n\n\n\n<li>Pashnev, D.; Korotyeyev, V. V.; Jorudas, J.; Urbanowicz, A.; Prystawko, P.; Janonis, V.; Kasalynas, I. Investigation of Electron Effective Mass in AlGaN\/GaN Heterostructures by THz Spectroscopy of Drude Conductivity. <em>IEEE Trans. Electron Devices<\/em> <strong>2022<\/strong>, <em>69<\/em>, 3636\u20133640, doi:10.1109\/TED.2022.3177388.<\/li>\n\n\n\n<li>\u010ci\u017eas, V.; Suba\u010dius, L.; Alexeeva, N. V.; Seliuta, D.; Hyart, T.; K\u00f6hler, K.; Alekseev, K.N.; Valu\u0161is, G. Dissipative Parametric Gain in a GaAs\/AlGaAs Superlattice. <em>Phys. Rev. Lett.<\/em> <strong>2022<\/strong>, <em>128<\/em>, 236802, doi:10.1103\/PhysRevLett.128.236802.<\/li>\n\n\n\n<li>Balagula, R.M.; Suba\u010dius, L.; Jorudas, J.; Janonis, V.; Prystawko, P.; Grabowski, M.; Ka\u0161alynas, I. High-Frequency and High-Power Performance of n-Type GaN Epilayers with Low Electron Density Grown on Native Substrate. <em>Materials (Basel).<\/em> <strong>2022<\/strong>, <em>15<\/em>, 2066, doi:10.3390\/ma15062066.<\/li>\n\n\n\n<li>Jorudas, J.; Prystawko, P.; \u0160imukovi\u010d, A.; Aleksiej\u016bnas, R.; Mickevi\u010dius, J.; Kry\u015bko, M.; Micha\u0142owski, P.P.; Ka\u0161alynas, I. Development of Quaternary InAlGaN Barrier Layer for High Electron Mobility Transistor Structures. <em>Materials (Basel).<\/em> <strong>2022<\/strong>, <em>15<\/em>, 1118, doi:10.3390\/ma15031118.<\/li>\n\n\n\n<li>Iva\u0161kevi\u010di\u016bt\u0117-Povilauskien\u0117, R.; Paddubskaya, A.; Seliuta, D.; Jokubauskis, D.; Minkevi\u010dius, L.; Urbanowicz, A.; Matulaitien\u0117, I.; Mikoli\u016bnait\u0117, L.; Kuzhir, P.; Valu\u0161is, G. Advantages of Optical Modulation in Terahertz Imaging for Study of Graphene Layers. <em>J. Appl. Phys.<\/em> <strong>2022<\/strong>, <em>131<\/em>, doi:10.1063\/5.0074772.<\/li>\n<\/ul>\n<\/div>\n\n\n\n<div class=\"wp-block-group alignwide is-vertical is-content-justification-center is-layout-flex wp-container-core-group-is-layout-838cd1cc wp-block-group-is-layout-flex\" style=\"padding-top:var(--wp--preset--spacing--40);padding-bottom:var(--wp--preset--spacing--50)\"><div class=\"is-default-size wp-block-site-logo\"><a href=\"https:\/\/thz.moscotin.ca\/\" class=\"custom-logo-link\" rel=\"home\"><img loading=\"lazy\" decoding=\"async\" width=\"2742\" height=\"1361\" src=\"https:\/\/thz.moscotin.ca\/wp-content\/uploads\/2024\/07\/thz-atelier-be-pagrindo-baltos-raides.png\" class=\"custom-logo\" alt=\"Terahertz Photonics Laboratory\" srcset=\"https:\/\/thz.moscotin.ca\/wp-content\/uploads\/2024\/07\/thz-atelier-be-pagrindo-baltos-raides.png 2742w, https:\/\/thz.moscotin.ca\/wp-content\/uploads\/2024\/07\/thz-atelier-be-pagrindo-baltos-raides-300x149.png 300w, 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