Work Experience 07/2018 – present Professor, Department of Theoretical Physics and Astrophysics, BSU 07/2016 – 06/2018 Senior Researcher, Department of Photonics Engineering, Technical University of Denmark (DTU), Kgs. Lyngby, Denmark 11/2014 – 06/2016 Professor, Department of Theoretical Physics and Astrophysics, BSU, Minsk 07/2012 – 10/2014 Docent, Department of Theoretical Physics and Astrophysics, BSU, Minsk 07/2010 – 06/2012 PostDoc, Department of Photonics Engineering, DTU 12/2009 – 06/2010 Docent, Department of Theoretical Physics, BSU, Minsk 09/2007 – 11/2009 Senior Lecturer, Department of Theoretical Physics, BSU, Minsk 12/2005 – 08/2007 Assistant, Department of Theoretical Physics, BSU, Minsk
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Publications Books —
Articles: 70 Selected publications 1. A.V. Novitsky and L.M. Barkovsky, Operator matrices for describing guiding propagation in circular bianisotropic fibres, Journal of Physics A.: Mathematical and General, vol. 38, p. 391–404 (2005). 2. A.V. Novitsky and L.M. Barkovsky, Guided modes in negative-refractive-index fibres, Journal of Optics A: Pure and Applied Optics, vol. 7, p. S51–S56 (2005). [published in special issue] 3. A.V. Novitsky and D.V. Novitsky, Negative propagation of vector Bessel beams, Journal of the Optical Society of America A, vol. 24, p. 2844–2849 (2007). 4. A. Novitsky and L. Barkovsky, Matrix approach for light scattering from a multilayered rotationally symmetric bianisotropic sphere, Physical Review A, vol. 77, 033849 (2008). 5. A.V. Novitsky and D.V. Novitsky, Nonparaxial Airy beams: role of evanescent waves, Optics Letters, vol. 34, p. 3430–3432 (2009). 6. A. Novitsky, C.-W. Qiu, and H. Wang, Single Gradientless Light Beam Drags Particles as Tractor Beams, Physical Review Letters, vol. 107, 203601 (2011). [Highlighted as Physics Synopsis] 7. A.V. Novitsky, S.V. Zhukovsky, L.M. Barkovsky, and A.V. Lavrinenko, Field approach in the transformation optics concept, Progress In Electromagnetics Research, vol. 129, p. 485–515 (2012). 8. A. Novitsky, C.-W. Qiu, and A. Lavrinenko, Material-Independent and Size-Independent Tractor Beams for Dipole Objects, Physical Review Letters, vol. 109, 023902 (2012). 9. A.V. Novitsky, V.M. Galynsky, and S.V. Zhukovsky, Asymmetric transmission in planar chiral split-ring metamaterials: Microscopic Lorentz-theory approach, Physical Review B, vol. 86, 075138 (2012). 10. C.-W. Qiu, D. Palima, A. Novitsky, D. Gao, W. Ding, S.V. Zhukovsky, and J. Gluckstad Engineering light-matter interaction for emerging optical manipulation applications, Nanophotonics, vol. 3, p. 181–201 (2014). 11. D. Gao, A. Novitsky, T. Zhang, F.C. Cheong, L. Gao, C.T. Lim, B. Luk'yanchuk, and C.-W. Qiu, Unveiling the correlation between non-diffracting tractor beam and its singularity in Poynting vector, Laser & Photonics Reviews, vol. 9, p. 75–82 (2015). 12. A.V. Novitsky, Scattered field generation and optical forces in transformation optics, Journal of Optics, vol. 18, 044021 (2016). [published in special issue as an invited paper] 13. V. Popov, A.V. Lavrinenko, and A. Novitsky, Operator approach to effective medium theory to overcome a breakdown of Maxwell Garnett approximation, Physical Review B, vol. 94, 085428 (2016). 14. A.A. Gorlach, M.A. Gorlach, A.V. Lavrinenko, and A. Novitsky, Matter-Wave Tractor Beams, Physical Review Letters, vol. 118, 180401 (2017). [Highlighted as PRL Editor’s Suggestion and Physics Synopsis] 15. A. Novitsky, T. Repän, S.V. Zhukovsky, and A.V. Lavrinenko, Subwavelength hyperlens resolution with perfect contrast function, Annalen der Physik (Berlin), vol. 530, no. 3, 1700300 (2018). 16. A. Novitsky, T. Repän, R. Malureanu, O. Takayama, E. Shkondin, and A.V. Lavrinenko, Search for superresolution in a metamaterial solid immersion lens, Phys. Rev. A, vol. 99, 023835 (2019). 17. A. Novitsky, D. Lyakhov, D. Michels, A.A. Pavlov, A.S. Shalin, and D.V. Novitsky, Unambiguous scattering matrix for non-Hermitian systems, Physcial Review A, vol. 101, 043834 (2020). 18. F. Morozko, A. Novitsky, and A. Karabchevsky, Modal Purcell factor in PT-symmetric waveguides, Physical Review B, vol. 102, 155303 (2020). |