Anton Vetlugin received a Ph.D. degree in physics in 2016 from St. Petersburg State University. Before joining NTU, he worked on theoretical and experimental aspects of quantum memory for quantum information applications in St.Petersburg and Copenhagen (Niels Bohr Institute). Currently, as a Senior Research Fellow, he studies problems of coherent interaction of quantum states of light with nanoscale devices such as metamaterials, periodic structures, and quantum networks, problems of quantum light detection, quantum memory, and multi-dimensional states of light.
1. A. N. Vetlugin, R. Guo, S. Dong, F. Martinelli, C. Soci, and N. I. Zheludev. (Invited talk, July 2023). Nontrivial application of coherent quantum absorption. META 2023, Paris, France.
2. A. N. Vetlugin. (Invited talk, Mar 2023). Coherent light absorption and estimation theory. Nanophotonics for Metrology Workshop, Chamonix, France.
3. A. N. Vetlugin, F. Martinelli, R. Guo, N. I. Zheludev, and C. Soci. (Invited talk, Sep 2022). From coherent absorption to coherent detection of quantum light. IPS Meeting 2022, Singapore.
4. A. N. Vetlugin, C. Soci, and N. I. Zheludev. (Invited talk, Aug 2022). Modeling quantum optics of metasurfaces on the IBM quantum computer: the photon-transmon analogy. SPIE Optics + Photonics, San Diego, California, USA.
5. A. N. Vetlugin, R. Guo, F. Martinelli, N. I. Zheludev, and C. Soci. (Invited talk, Aug 2022). Coherent light absorption and photon number discrimination. SPIE Optics + Photonics, San Diego, California, USA.
6. A. N. Vetlugin, C. Soci, and N. I. Zheludev. (Invited talk, Apr 2022). Modelling quantum photonics on the IBM quantum computer. Quantum and Topological Nanophotonics (QTN) 2022, Singapore.
7. A. N. Vetlugin, C. Soci, and N. I. Zheludev. (Invited talk, Mar 2022). Simulating quantum nanophotonics on the IBM quantum computer. Nanometa 2022, Seefeld, Austria. A. N. Vetlugin. (Seminar invited talk, Oct 2021). Modelling photonics on a quantum computer. ORC/ZI Quantum Speaker Colloquium, Southampton, UK.
8. A. N. Vetlugin, R. Guo, C. Soci, and N. I. Zheludev. (Invited talk, Sep 2021). Anti-Hong-Ou-Mandel effect with bosons and fermions. IPS Meeting 2021, Singapore.
9. A. N. Vetlugin, R. Guo, C. Soci, and N. I. Zheludev. (Seminar invited talk, Jan 2021). Deterministic generation of entanglement in quantum network by distributed coherent absorption of a single photon. Seminar of Quantum Optics Laboratory, St. Petersburg State University, Russia.
10. A. N. Vetlugin, R. Guo, C. Soci, and N. I. Zheludev. (Seminar invited talk, Jan 2021). Quantum regimes of coherent perfect absorption. NanoMeta Seminar, EPSRC Centre for Photonic Metamaterials, University of Southampton, UK.
11. A. N. Vetlugin, R. Guo, C. Soci, and N. I. Zheludev. (Invited talk, Dec 2020). Manipulation of single photon quantum states by coherent perfect absorption in a fiber network. IPS Meeting 2020, Singapore.
12. A. N. Vetlugin, R. Guo, C. Soci, and N. I. Zheludev. (Seminar invited talk, Dec 2020). Pancharatnam-Berry Phase and Non-Local Control of Light Dissipation. NanoMeta Seminar, EPSRC Centre for Photonic Metamaterials, University of Southampton, UK.
13. A. N. Vetlugin, I. V. Sokolov. (Seminar invited talk, Oct 2016). Quantum memory as multi-port beamsplitter. Seminar of Quantum Optics Center (QUANTOP), University of Copenhagen, Denmark.
[1] A. N. Vetlugin, F. Martinelli, S. Dong, and C. Soci. (2023). Photon number resolution without optical mode multiplication, Nanophotonics 12, 505.
[2] A. N. Vetlugin, R. Guo, C. Soci, and N. I. Zheludev. (2022). Anti-Hong-Ou-Mandel interference by coherent perfect absorption of entangled photons. New J. Phys. 24, 122001.
[3] A. N. Vetlugin, C. Soci, and N. I. Zheludev. (2022). Modeling quantum light interference on a quantum computer. Appl. Phys. Lett. 121, 104001.
[4] A. N. Vetlugin, R. Guo, C.Soci, and N. I. Zheludev. (2022). Deterministic generation of entanglement in a quantum network by coherent absorption of a single photon. Phys. Rev. A 106, 012402.
[5] A. N. Vetlugin. (2021). Coherent perfect absorption of quantum light. Phys. Rev. A 104, 013716.
[6] S. Yanikgonul, R. Guo, A. Xosmalis, A. N. Vetlugin, G. Adamo, C. Soci, and N. I. Zheludev. (2020). Phase stabilization of a coherent fibre network by single-photon counting. Optics Letters 45, 2740-2743.
[7] N. I. Masalaeva, A. N. Vetlugin and I. V. Sokolov. (2020). Cavity-assisted squeezing and entanglement: non-adiabatic effects and optimal cavity-atomic ensemble matching. Physica Scripta 95, 034009.
[8] A. N. Vetlugin, R. Guo, A. Xomalis, S. Yanikgonul, G. Adamo, C.Soci, and N. I. Zheludev. (2019). Coherent perfect absorption of single photons in a fiber network. Applied Physics Letters 115, 191101.
[9] A. N. Vetlugin and I. V. Sokolov. (2016). Multivariate quantum memory as controllable delayed multi-port beamsplitter. Europhysics Letters 113, 64005.
[10] V.V. Kuz’min, A.N. Vetlugin, I.V. Sokolov. (2015). Control of parameters of quantum memory for light in a cavity configuration. Optics and Spectroscopy 119, 1004-1009.
[11] O.M. Artamonov, S.N. Samarin, A.N. Vetlugin, I.V. Sokolov, J.F. Williams. (2015). Entanglement manifestation in spin resolved electron–electron scattering. Journal of Electron Spectroscopy and Related Phenomena 205, 66-73.
[12] A. N. Vetlugin and I. V. Sokolov. (2014). Addressable parallel cavity-based quantum memory. The European Physical Journal D 68, 269.
[13] A. N. Vetlugin and I. V. Sokolov. (2013). The Efficiency of Parallel Quantum Memory for Light in a Cavity Configuration. Optics and Spectroscopy 115, 875-883.
