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  1. H. Badorreck, M. Steinecke, A. Farid, M. Jupé, D. Ristau, J. Müller, R. Tonneau, P. Moskovkin, S. Lucas, L. Grinevičiūtė, A. Selskis and T. Tolenis, Correlation of structural and optical properties using Virtual Materials analysis, Optics Express, Vol. 27 Issue 16 p.p. 22209-22225, 2019.
  2. A. Paulauskas, S. Tumėnas, A. Selksis, T. Tolenis, A. Valavičius, Z. Balevičius, Hybrid Tamm-surface plasmon polaritons mode for detection of mercury adsorption on 1D photonic crystal/gold nanostructures by total internal reflection ellipsometry, Optics Express, 26(23), 2018.
  3. L. Grineviciute, C. Babayigit, D. Gailevičius, E. Bor, M. Turduev, V. Purlys, T. Tolenis, H. Kurt, K. Staliunas. Angular filtering by Bragg photonic microstructures fabricated by physical vapour deposition. Applied Surface Science 481, 353–359, 2019.
  4. A. Belosludtsev, N. Kyžas, Real-time in-situ investigation of copper ultrathin films growth. Materials Letters 232, 216-219, 2018.
  5. G. Abromavičius, T. Juodagalvis, R. Buzelis, K. Juškevičius, R. Drazdys, S. Kičas. Oxygen plasma etching of fused silica substrates for high power laser optics. Applied Surface Science 453, 477–481, 2018.
  6. A. Belosludtsev, A. Valavičius, N. Kyžas, S. Kičas. Metal–dielectric broad-angle non-polarizing beam splitters with ultrathin copper layer. Optics and Laser Technology 107, 297–301, 2018.
  7. A. Belosludtsev, K. Juškevičius, L. Ceizaris, R. Samuilovas, S. Stanionytė, V. Jasulaitienė, S. Kičas. Correlation between stoichiometry and properties of scandium oxide films prepared by reactive magnetron sputtering. Appl. Surf. Sci. 427B 312-318, 2018.
  8. L. Grineviciute, M. Andrulevicius, A. Melninkaitis, R. Buzelis, A. Selskis, A. Lazauskas, T. Tolenis. Highly Resistant Zero-Order Waveplates Based on All-Silica Multilayer Coatings. Physica Status Solidi A V. 214, ISS 12, 2017.
  9. T. Tolenis, L. Grinevičiūtė, L. Smalakys, M. Ščiuka, R. Drazdys, L. Mažulė, R. Buzelis, A. Melninkaitis. Next generation highly resistant mirrors featuring all-silica layers. Nature Publishing Group Scientific Reports 7, 10898, 2017.
  10. T. Tolenis, L. Grineviciute, R. Buzelis, L. Smalakys, E. Pupka, S. Melnikas, A. Selskis, R. Drazdys,  A. Melninkaitis. Sculptured anti-reflection coatings for high power lasers. Optical materials express. Vol. 7, (4), pp. 1249-1258, 2017.
  11. K. Juškevičius, R. Buzelis, G. Abromavičius, R. Samuilovas, S. Abbas, A. Belosludtsev, R. Drazdys, S. Kičas. Argon plasma etching of fused silica substrates for manufacturing high laser damage resistance optical interference coatings. Optical Materials Express 7 (10), 3598-3607, 2017.
  12. L. Grinevičiūtė, R. Buzelis, M. Andrulevičius, A. Lazauskas, A. Selskis, R. Drazdys, T. Tolenis. Advanced design of UV waveplates based on nano-structured thin films. Nanostructured Thin Films X 10356, 103560Q, 2017.
  13. T. Tolenis, L. Grinevičiūtė, A. Melninkaitis, A. Selskis, R. Buzelis, L. Mažulė, R. Drazdys. New generation all-silica based optical elements for high power laser systems. Nanostructured Thin Films X 10356, 103560J, 2017.
  14. L Grinevičiūtė, R. Buzelis, M. Andrulevičius, A. Lazauskas, A. Selskis, R. Drazdys, T. Tolenis. Advanced design of UV waveplates based on nano-structured thin films. Nanostructured Thin Films X 10356, 103560Q, 2017.
  15. T. Tolenis, L. Grinevičiūtė, R. Buzelis, L. Petronis, R. Drazdys. Glancing angle deposition for production of optical components in UV region. SPIE Nanoscience+ Engineering, Nanostructured Thin Films IX, 9929, 99290D, 2016.
  16. T. Tolenis, L. Grinevičiūtė, L. Mažulė, A. Selskis, R. Drazdys. Low-stress phase plates produced by serial bideposition of TiO2 thin films. J. Nanophoton. 10(3), 036003, 2016.
  17. S. Kičas, U. Gimževskis, S. Melnikas, Post deposition annealing of IBS mixture coatings for compensation of film induced stress, Opt. Mat. Express, 6(7), 2236-2243 (2016).


  1. T. Tolenis, A. Melninkaitis, FTMC. An interference coating or its part consisting layers with different porosity. Patent application No. PCT/IB2017/050353, priority date 2016 08 18 – optinių dangų technologijos.
  2. Būdas padidinti lazeriu indukuotos pažaidos slenkstį ėsdinant optinius padėklus. Lietuvos respublikos valstybinio patentų biuro oficialus biuletenis 2015/04, 2015 04 27.