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  1. 2025

  2. Thermal conductivity and balanced performance in infrared nonlinear optical multicomponent chalcogenides LixAg1−xGayIn1−ySe2

    Isaenko, L. I., Xu, B., Korzhneva, K. E., Gong, P., Samoshkin, D. A., Kurus, A. F. & Lin, Z., 18 Jan 2025, In: Inorganic Chemistry Frontiers. 5

    Research output: Contribution to journalArticlepeer-review

  3. 2024

  4. Phase Transitions and Nonlinear Optical Property Modifications in BaGa4Se7

    Isaenko, L., Dong, L., Melnikova, S. V., Molokeev, M. S., Korzhneva, K. E., Krinitsin, P. G., Kurus, A. F., Samoshkin, D. A., Belousov, R. A. & Lin, Z., 27 May 2024, In: Inorganic Chemistry. 63, 21, p. 10042-10049 8 p.

    Research output: Contribution to journalArticlepeer-review

  5. 2023

  6. A new nonlinear optical crystal Li0.81Ag0.19InSe2 with balanced properties for efficient nonlinear conversion in the mid-IR region

    Isaenko, L., Dong, L., Yelisseyev, A., Lobanov, S., Korzhneva, K., Gromilov, S., Sukhih, A., Pugachev, A., Vedenyapin, V., Kurus, A., Khamoyan, A. & Lin, Z., 25 Dec 2023, In: Journal of Alloys and Compounds. 969, 9 p., 172382.

    Research output: Contribution to journalArticlepeer-review

  7. Evolution of Structures and Optical Properties in a Series of Infrared Nonlinear Optical Crystals LixAg1-xInSe2 (0 ≤ x ≤ 1)

    Isaenko, L., Dong, L., Korzhneva, K., Yelisseyev, A., Lobanov, S., Gromilov, S., Molokeev, M. S., Kurus, A. & Lin, Z., 2 Oct 2023, In: Inorganic Chemistry. 62, 39, p. 15936-15942 7 p.

    Research output: Contribution to journalArticlepeer-review

  8. 2022

  9. LixAg1–xGaSe2: Interplay Between Lithium and Silver in Mid-Infrared Nonlinear Optical Chalcogenides

    Isaenko, L., Dong, L., Kurus, A., Lin, Z., Yelisseyev, A., Lobanov, S., Molokeev, M., Korzhneva, K. & Goloshumova, A., 19 Dec 2022, In: Advanced Optical Materials. 10, 24, 2201727.

    Research output: Contribution to journalArticlepeer-review

  10. Difference Frequency Generation in BaGa4Se7 Tunable in a 6.5-8.5 um Range with a Peak Power of 30 MW Pumped by 1.03 um, 1.8 ps Laser

    Jelinek, M., Kubecek, V., Novak, O., Huynh, J., Cimrman, M., Chyla, M., Smrz, M., Mocek, T., Smetanin, S. N., Grechin, S. G., Krinitsin, P. G., Kurus, A. F. & Isaenko, L. I., 2022, Mid-Infrared Coherent Sources, MICS 2022. OSA Publishing, JTh4A.15. (Optics InfoBase Conference Papers).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  11. 2021

  12. Нелинейный монокристалл литиевых халькогенидов и способ его получения

    Лобанов, С. И., Исаенко, Л. И., Елисеев, А. П., Голошумова, А. А. & Курусь, А. Ф., 29 Dec 2021, IPC No. C30B29/46, C30B11/04, G02F1/355, G02F1/37, Роспатент - Федеральная служба по интеллектуальной собственности, Patent No. 2763463, Priority date 2 Apr 2021, Priority No. 2021109205

    Research output: PatentPatent for invention

  13. Thermophysical properties of lithium thiogallate that are important for optical applications

    Kurus, A., Yelisseyev, A., Lobanov, S., Plyusnin, P., Molokeev, M., Solovyev, L., Samoshkin, D., Stankus, S., Melnikova, S. & Isaenko, L., 8 Dec 2021, In: RSC Advances. 11, 62, p. 39177-39187 11 p.

    Research output: Contribution to journalArticlepeer-review

  14. A New Nonlinear Optical Selenide Crystal AgLiGa2Se4 with Good Comprehensive Performance in Mid-Infrared Region

    Yelisseyev, A., Lobanov, S., Molokeev, M., Zhang, S., Pugachev, A., Lin, Z., Vedenyapin, V., Kurus, A., Khamoyam, A. & Isaenko, L., 4 Mar 2021, In: Advanced Optical Materials. 9, 5, 8 p., 2001856.

    Research output: Contribution to journalArticlepeer-review

  15. Single crystal growth and the electronic structure of Rb2Na(NO3)3: Experiment and theory

    Korzhneva, K. E., Bekenev, V. L., Khyzhun, O. Y., Goloshumova, A. A., Tarasova, A. Y., Molokeev, M. S., Isaenko, L. I. & Kurus, A. F., Feb 2021, In: Journal of Solid State Chemistry. 294, 9 p., 121910.

    Research output: Contribution to journalArticlepeer-review

  16. 2020

  17. LiGaS2 crystal growth under low temperature gradient conditions by the modified Bridgman method

    Kurus, A., Lobanov, S., Grazhdannikov, S., Shlegel, V. & Isaenko, L., 1 Dec 2020, In: Materials Science and Engineering B: Solid-State Materials for Advanced Technology. 262, 5 p., 114715.

    Research output: Contribution to journalArticlepeer-review

  18. Tens-of-uJ-level, 20-picosecond, Narrowband Difference-Frequency Generation at 4.6, 5.4, 7.5, 9.2 ?m in LiGaS2 and LiGaSe2 at Nd:YAG Laser Pumping and Raman Seeding

    Jelinek, M., Smetanin, S. N., Kurus, A. F., Isaenko, L. I., Vedenyapin, V. N., Lobanov, S. I. & Kubeek, V., 16 Nov 2020, Compact EUV and X-ray Light Sources, EUVXRAY 2020. The Optical Society, JW1A.28. (Optics InfoBase Conference Papers).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  19. 50-μJ level, 20-picosecond, narrowband difference-frequency generation at 4.6, 5.4, 7.5, 9.2, and 10.8 μm in LiGaS2 and LiGaSe2 at Nd:YAG laser pumping and various crystalline Raman laser seedings

    Smetanin, S. N., Jelínek, M., Kubeček, V., Kurus, A. F., Vedenyapin, V. N., Lobanov, S. I. & Isaenko, L. I., 1 Aug 2020, In: Optical Materials Express. 10, 8, p. 1881-1890 10 p.

    Research output: Contribution to journalArticlepeer-review

  20. Optical and electronic properties of lithium thiogallate (LiGaS2): Experiment and theory

    Vu, T. V., Lavrentyev, A. A., Gabrelian, B. V., Vo, D. D., Khang, P. D., Isaenko, L. I., Lobanov, S. I., Kurus', A. F. & Khyzhun, O. Y., 1 Jul 2020, In: RSC Advances. 10, 45, p. 26843-26852 10 p.

    Research output: Contribution to journalArticlepeer-review

  21. Blocking of dislocation propagation by faceted solid liquid interface during Ge crystal growth by the low thermal gradient Czochralski technique

    Kasimkin, P. V., Kurus, A. F., Shlegel, V. N., Vasiliev, Y. V. & Podkopaev, O. I., 1 Feb 2020, In: Journal of Crystal Growth. 531, 6 p., 125375.

    Research output: Contribution to journalArticlepeer-review

  22. 2019

  23. 50-µJ level, 20-picosecond difference-frequency generation at 4.6-9.2 µm in LiGaS2 and LiGaSe2 at Nd:YAG laser pumping and various crystalline Raman laser seeding

    Smetanin, S. N., Jelínek, M., Kubeček, V., Kurus, A. F., Vedenyapin, V. N., Lobanov, S. I. & Isaenko, L. I., Oct 2019, Advanced Solid State Lasers, ASSL_2019. OSA Publishing, JW2A.18. (Optics InfoBase Conference Papers; vol. Part F139-ASSL 2019).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  24. 50-μJ level, 20-picosecond difference-frequency generation at 4.6-9.2 μm in LiGaS2 and LiGaSe2 at Nd:YAG laser pumping and various crystalline Raman laser seeding

    Smetanin, S. N., Jelínek, M., Kubeček, V., Kurus, A., Vedenyapin, V. N., Lobanov, S. I. & Isaenko, L. I., 23 Sept 2019, Advanced Solid State Lasers - Proceedings Laser Congress 2019 (ASSL, LAC, LS and C). OSA Publishing, (Advanced Solid State Lasers - Proceedings Laser Congress 2019 (ASSL, LAC, LS and C)).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  25. 10-μj level, 20-picosecond difference-frequency generation at 9.21 μm in ligas2 pumped by 1.064/1.203 μm nd:yag/caco3 raman laser

    Smetanin, S. N., Jelínek, M., Kubeček, V., Kurus, A. F., Zheltov, K. A., Lobanov, S. I. & Isaenko, L. I., 1 Jan 2019, Nonlinear Optics, NLO 2019. OSA Publishing, (Optics InfoBase Conference Papers; vol. Part F134-NLO 2019).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  26. Монокристаллы халькогенидов для полупроводниковых детекторов нейтронного излучения

    Курусь, А. Ф., Исаенко, Л. И., Елисеев, А. П., Лобанов, С. И., Криницын, П. Г., Коржнева, К. Е. & Тарасова, А. Ю., 2019, In: Фундаментальные проблемы современного материаловедения. 16, 1, p. 16-21 6 p., 2.

    Research output: Contribution to journalArticlepeer-review

ID: 12582313