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  • Vladimir Tuz教授

    吉林大学未来科学国际合作联合实验室                      
    吉林大学电子科学与工程学院集成光电子学国家重点实验室                      
    地址:长春市前进大街2699号                      
    邮箱:tvr@jlu.edu.cn,tvr@rian.kharkov.ua

    个人简介:

    Vladimir R. Tuz,吉林大学未来科学国际合作联合实验室&电子科学与工程学院集成光电国家重点实验室外籍教授。 2005年毕业于乌克兰哈尔科夫国立大学,获得理论物理学博士学位。曾任哈尔科夫国立大学教授和乌克兰国家科学院射电天文学研究所首席研究员。三星电子高级研究工程师。2016年起,在中国吉林大学任教。

    教育经历

    1996 乌克兰哈尔科夫国立大学无线电物理系硕士 导师:V. B. Kazanskiy教授

    2005 乌克兰哈尔科夫国立大学无线电物理系博士 导师:V. B. Kazanskiy教授

    2013 乌克兰哈尔科夫国立大学放射物理物理和数学科学博士学位 导师:S. L. Prosvirnin教授

    研究方向

    微波技术、复杂和随机介质、复合材料,光子晶体和超材料电磁学计算、电磁学数值方法、非线性波和孤子

    代表性论文:

    1. P. Yu, V. Fesenko, V. Tuz, “Dispersion features of complex waves in a graphene-coated semiconductor nanowire,” Nanophotonics, 2018, Vol. 7, No. 5, 925-934.

    2. V. Tuz, V. Khardikov, Y.?Kivshar, “All-dielectric resonant metasurfaces with a strong toroidal response,” ACS Photonics, 2018, Vol. 5, 1871-1876.

    3. B. Kochetov, V. Tuz, “Induced waveform transitions of dissipative solitons,” Chaos, 2018, Vol. 28, No. 1, 013130.

    4. V. Tuz, V. Khardikov, A. Kupriianov, K. Domina, S. Xu, H. Wang, H.-B. Sun, “High-quality trapped modes in all-dielectric metamaterials,” Optics Express, 2018, Vol. 26, No. 3, 2905-2916.

    5. D. Novitsky, V. Tuz, S. Prosvirnin, A. Lavrinenko, A. Novitsky, “Transmission enhancement in loss-gain multilayers by resonant suppression of reflection,” Physical Review B, 2017, Vol. 96, No. 23, 235129.

    6. V. Tuz, I. Fedorin, V. Fesenko, “Bi-hyperbolic isofrequency surface in a magnetic-semiconductor superlattice,” Optics Letters, 2017, Vol. 42, No. 21, 4561-4564.

    7. B. Kochetov, V. Tuz, “Cascade replication of dissipative solitons,” Physical Review E, 2017, Vol. 96, No. 1, 012206.

    8. V. Tuz, V. Fesenko, I. Fedorin, H.-B. Sun, W. Han, “Coexistence of bulk and surface polaritons in a magnetic-semiconductor superlattice influenced by a transverse magnetic field,” Journal of Applied Physics, 2017, Vol. 121, 103102.

    9. B. Kochetov, I. Vasylieva, L. Kochetova, H.-B. Sun, V. Tuz, “Control of dissipative solitons in a magneto-optic planar waveguide,” Optics Letters, 2017, Vol. 42, No. 3, 531-534.

    10. V. Tuz, V. Fesenko, I. Fedorin, H.-B. Sun, V. Shulga, “Crossing and anti-crossing effects of polaritons in a magnetic-semiconductor superlattice influenced by an external magnetic field,” Superlattices and Microstructures, 2017, 103, 285-294.

    11. V. Fesenko, V. Tuz, I. Fedorin, H.-B. Sun, V. Shulga, W. Han, “Control of single-mode operation in a circular waveguide filled by a longitudinally magnetized gyroelectromagnetic medium,” Journal of Electromagnetic Waves and Applications, 2017, Vol. 31, No. 13, 1265-1276.

    12. V. Tuz, V. Fesenko, I. Fedorin, H.-B. Sun, V. Shulga, W. Han, “Dispersion peculiarities of hybrid modes in a circular waveguide filled by a composite gyroelectromagnetic medium,” Journal of Electromagnetic Waves and Applications, 2017, Vol. 31, No. 2, 350-362.

    13. V. Tuz, “Polaritons dispersion in a composite ferrite-semiconductor structure near gyrotropic-nihility state,” Journal of Magnetism and Magnetic Materials, 2016, 419, 559-565.

    14. V. Fesenko, I. Fedorin, V.?Tuz, “Dispersion regions overlapping for bulk and surface polaritons in a magnetic-semiconductor superlattice,” Optics Letters, 2016, Vol. 41, No. 9, 2093-2096.

    15.V.?Fesenko, V. Tuz, O. Shulika, I. Sukhoivanov, “Dispersion properties of Kolakoski-cladding hollow-core nanophotonic Bragg waveguide,” Nanophotonics, 2016, Vol. 5, No. 4, 500-508.

    16. V. Fesenko, V. Tuz, “Dispersion blue-shift in an aperiodic Bragg reflection waveguide,” Optics Communications, 2016, 365, 225–230.

    17. V. Tuz, “Gyrotropic-nihility state in a composite ferrite-semiconductor structure,” Journal of Optics, 2015, Vol. 17, No. 3, 035611.

    承担项目

    2016 - 2018 包含等离激元和增益成分的活性微结构和纳米结构中的不稳定过程,乌克兰和白俄罗斯双边项目

    2015 - 2016 非线性超材料的开发,乌克兰国家科学院和土耳其科学技术研究委员会双边项目

    2014 - 2016 用于太赫兹应用的新型全介电功能超材料,乌克兰科学技术中心和乌克兰国家科学院双边项目

    2013 - 2014 超材料的非稳定过程包括有源和非线性组件,乌克兰和白俄罗斯的基础研究双边项目

    2010 - 2014 研究由半导体和超导体制成的周期性纳米结构中e逝波的共振激发,乌克兰国家计划“纳米技术和纳米材料”项目

    2009 - 2012 研究复杂周期结构和超材料对电磁波的散射。开发用于设计微带和波导相控天线阵列的电动力学方法,乌克兰国家科学院计划

    2004- 2006 开发和批准用于缺血性心脏病鉴定和定量的计算算法,与美国CardioMag Inc.合作,获得了平民研究与发展基金会(CRDF全球)资助