Overview
Dr. Oleksandr Kyriienko is leading the Quantum Dynamics, Optics, and Simulation group (QuDOS). His background is in theoretical quantum optics and computing. Please visit our group page for the detailed description. A profile page for Dr Kyriienko can be visited here. Research subjects include:
- Quantum Optics of 2D materials and Polaritonics
- Quantum Computing and Simulation
- Non-equilibrium Dynamics
- Machine Learning
- and many others.
QuDOS group is growing and various opportunities appear regularly. Please contact o.kyriienko@exeter.ac.uk if you want to join.
Publications
Copyright Notice: Any articles made available for download are for personal use only. Any other use requires prior permission of the author and the copyright holder.
| 2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 |
2024
- Umeano C, Elfving VE, Kyriienko O. (2024) Geometric quantum machine learning of BQP$^A$ protocols and latent graph classifiers. [PDF]
- Makhonin M, Delphan A, Song KW, Walker P, Isoniemi T, Claronino P, Orfanakis K, Rajendran SK, Ohadi H, Heckötter J. (2024) Nonlinear Rydberg exciton-polaritons in Cu2O microcavities, Light Sci Appl, volume 13, no. 1, DOI:10.1038/s41377-024-01382-9. [PDF]
- Makhonin M, Delphan A, Song KW, Walker P, Isoniemi T, Claronino P, Orfanakis K, Rajendran SK, Ohadi H, Heckötter J. (2024) Nonlinear Rydberg exciton-polaritons in Cu$_2$O microcavities. [PDF]
2023
- Scali S, Umeano C, Kyriienko O. (2023) Quantum topological data analysis via the estimation of the density of states. [PDF]
- Zhumagulov Y, Chiavazzo S, Shelykh IA, Kyriienko O. (2023) Robust polaritons in magnetic monolayers of CrI3, Physical Review B, volume 108, no. 16, DOI:10.1103/PhysRevB.108.L161402.
- Kasture S, Kyriienko O, Elfving VE. (2023) Protocols for classically training quantum generative models on probability distributions, Physical Review A, volume 108, no. 4, DOI:10.1103/PhysRevA.108.042406.
- Tsiamis I, Kyriienko O, Sørensen AS. (2023) Continuous wave single photon switch based on a Rydberg atom ensemble. [PDF]
- Tsiamis I, Kyriienko O, Sørensen AS. (2023) Continuous wave quantum light control via engineered Rydberg induced dephasing. [PDF]
- Umeano C, Paine AE, Elfving VE, Kyriienko O. (2023) What can we learn from quantum convolutional neural networks?. [PDF]
- Paine AE, Elfving VE, Kyriienko O. (2023) Quantum Quantile Mechanics: Solving Stochastic Differential Equations for Generating Time-Series, Advanced Quantum Technologies, volume 6, no. 10, DOI:10.1002/qute.202300065.
- Paine AE, Elfving VE, Kyriienko O. (2023) Physics-Informed Quantum Machine Learning: Solving nonlinear differential equations in latent spaces without costly grid evaluations. [PDF]
- Williams CA, Paine AE, Wu H-Y, Elfving VE, Kyriienko O. (2023) Quantum Chebyshev Transform: Mapping, Embedding, Learning and Sampling Distributions. [PDF]
- Louca C, Genco A, Chiavazzo S, Lyons TP, Randerson S, Trovatello C, Claronino P, Jayaprakash R, Hu X, Howarth J. (2023) Interspecies exciton interactions lead to enhanced nonlinearity of dipolar excitons and polaritons in MoS2 homobilayers, Nature Communications, volume 14, no. 1, article no. 3818, DOI:10.1038/s41467-023-39358-9. [PDF]
- Paine AE, Elfving VE, Kyriienko O. (2023) Quantum kernel methods for solving regression problems and differential equations, Physical Review A, volume 107, no. 3, DOI:10.1103/PhysRevA.107.032428.
- Chiavazzo S, Sørensen AS, Kyriienko O, Dellantonio L. (2023) Quantum manipulation of a two-level mechanical system, Quantum, volume 7, DOI:10.22331/q-2023-03-09-943.
2022
- Song KW, Chiavazzo S, Kyriienko O. (2022) Microscopic theory of nonlinear phase space filling in polaritonic lattices. [PDF]
- Kasture S, Kyriienko O, Elfving VE. (2022) Protocols for classically training quantum generative models on probability distributions, Phys. Rev. A, volume 108. [PDF]
- Zhumagulov YV, Chiavazzo S, Shelykh IA, Kyriienko O. (2022) Robust polaritons in magnetic monolayers of CrI3. [PDF]
- Kyriienko O, Magnusson EB. (2022) Unsupervised quantum machine learning for fraud detection. [PDF]
- Song KW, Chiavazzo S, Shelykh IA, Kyriienko O. (2022) Theory for Coulomb scattering of trions in 2D materials. [PDF]
- Kuriakose T, Walker PM, Dowling T, Kyriienko O, Shelykh IA, St-Jean P, Zambon NC, Lemaitre A, Sagnes I, Legratiet L. (2022) Few-photon all-optical phase rotation in a quantum-well micropillar cavity, NATURE PHOTONICS, volume 16, no. 8, pages 566-+, DOI:10.1038/s41566-022-01019-6. [PDF]
- Zhumagulov Y, Chiavazzo S, Gulevich D, Perebeinos V, Shelykh I, Kyriienko O. (2022) Microscopic theory of exciton and trion polaritons in doped monolayers of transition metal dichalcogenides, npj Computational Materials, DOI:10.1038/s41524-022-00775-x.
- Song KW, Chiavazzo S, Shelykh IA, Kyriienko O. (2022) Attractive trion-polariton nonlinearity due to Coulomb scattering. [PDF]
- Louca C, Genco A, Chiavazzo S, Lyons TP, Randerson S, Trovatello C, Claronino P, Jayaprakash R, Watanabe K, Taniguchi T. (2022) Nonlinear interactions of dipolar excitons and polaritons in MoS2 bilayers. [PDF]
- Paine AE, Elfving VE, Kyriienko O. (2022) Quantum Kernel Methods for Solving Differential Equations. [PDF]
- Kyriienko O, Paine AE, Elfving VE. (2022) Protocols for Trainable and Differentiable Quantum Generative Modelling. [PDF]
- Zvyagintseva D, Sigurdsson H, Kozin VK, Iorsh I, Shelykh IA, Ulyantsev V, Kyriienko O. (2022) Machine learning of phase transitions in nonlinear polariton lattices, COMMUNICATIONS PHYSICS, volume 5, no. 1, article no. ARTN 8, DOI:10.1038/s42005-021-00755-5. [PDF]
2021
- Kyriienko O, Elfving VE. (2021) Generalized quantum circuit differentiation rules, Physical Review A, volume 104, no. 5, article no. 052417, DOI:10.1103/physreva.104.052417. [PDF]
- Heim N, Ghosh A, Kyriienko O, Elfving VE. (2021) Quantum Model-Discovery. [PDF]
- Bespalova TA, Kyriienko O. (2021) Quantum simulation and ground state preparation for the honeycomb Kitaev model. [PDF]
- Paine AE, Elfving VE, Kyriienko O. (2021) Quantum Quantile Mechanics: Solving Stochastic Differential Equations for Generating Time-Series, Adv Quantum Technol. 2300065 (2023). [PDF]
- Kyriienko O, Elfving VE. (2021) Generalized quantum circuit differentiation rules, Phys. Rev. A, volume 104. [PDF]
- Zhumagulov YV, Chiavazzo S, Gulevich DR, Perebeinos V, Shelykh IA, Kyriienko O. (2021) Microscopic theory of exciton and trion polaritons in doped monolayers of transition metal dichalcogenides. [PDF]
- Kuriakose T, Walker PM, Dowling T, Kyriienko O, Shelykh IA, St-Jean P, Zambon NC, Lemaître A, Sagnes I, Legratiet L. (2021) Few-photon all-optical phase rotation in a quantum-well micropillar cavity. [PDF]
- Zvyagintseva D, Sigurdsson H, Kozin VK, Iorsh I, Shelykh IA, Ulyantsev V, Kyriienko O. (2021) Machine learning of phase transitions in nonlinear polariton lattices, Commun Phys, volume 5. [PDF]
- Chiavazzo S, Sørensen AS, Kyriienko O, Dellantonio L. (2021) Quantum manipulation of a two-level mechanical system, Quantum, volume 7. [PDF]
2020
- Shahnazaryan V, Kozin VK, Shelykh IA, Iorsh IV, Kyriienko O. (2020) Tunable optical nonlinearity for TMD polaritons dressed by a Fermi sea, DOI:10.48550/arxiv.2004.12896.
- Bespalova TA, Kyriienko O. (2020) Hamiltonian operator approximation for energy measurement and ground state preparation, DOI:10.48550/arxiv.2009.03351.
- Kyriienko O, Paine AE, Elfving VE. (2020) Solving nonlinear differential equations with differentiable quantum circuits, DOI:10.48550/arxiv.2011.10395.
- Kyriienko O, Paine AE, Elfving VE. (2020) Solving nonlinear differential equations with differentiable quantum circuits, Phys. Rev. A, volume 103. [PDF]
- Bespalova TA, Kyriienko O. (2020) Hamiltonian operator approximation for energy measurement and ground state preparation, PRX Quantum, volume 2. [PDF]
- Kozin VK, Kyriienko O. (2020) Effective Hamiltonians for discrete time crystals, AIP Conference Proceedings, volume 2241, DOI:10.1063/5.0011485.
- Chivilikhin D, Samarin A, Ulyantsev V, Iorsh I, Oganov AR, Kyriienko O. (2020) MoG-VQE: Multiobjective genetic variational quantum eigensolver. [PDF]
- Kibis OV, Kyriienko O, Shelykh IA. (2020) Electron-photonic topological states on the surface of a bulk semiconductor driven by a high-frequency field, Journal of Physics: Conference Series, volume 1461, no. 1, DOI:10.1088/1742-6596/1461/1/012063.
- Kozin VK, Kyriienko O. (2020) Reply to "Comment on "Quantum Time Crystals from Hamiltonians with Long-Range Interactions"". [PDF]
- Shahnazaryan V, Kozin VK, Shelykh IA, Iorsh IV, Kyriienko O. (2020) Tunable optical nonlinearity for TMD polaritons dressed by a Fermi sea, Phys. Rev. B, volume 102. [PDF]
- Yagafarov T, Sannikov D, Zasedatelev A, Georgiou K, Baranikov A, Kyriienko O, Shelykh I, Gai L, Shen Z, Lidzey D. (2020) Mechanisms of blueshifts in organic polariton condensates, Communications Physics, volume 3, no. 1, article no. 18, DOI:10.1038/s42005-019-0278-6. [PDF]
- Kyriienko O, Krizhanovskii DN, Shelykh IA. (2020) Nonlinear Quantum Optics with Trion Polaritons in 2D Monolayers: Conventional and Unconventional Photon Blockade, Physical Review Letters, volume 125, pages 197402-197402, DOI:10.1103/PhysRevLett.125.197402.
2019
- Kozin VK, Kyriienko O. (2019) Quantum Time Crystals from Hamiltonians with Long-Range Interactions, DOI:10.48550/arxiv.1907.07215.
- Shahnazaryan V, Kyriienko O, Rostami H. (2019) Exciton routing in the heterostructure of TMD and paraelectrics, DOI:10.48550/arxiv.1902.07583.
- Kibis OV, Kyriienko O, Shelykh IA. (2019) Structure of surface electronic states in strained mercury telluride, DOI:10.48550/arxiv.1904.07653.
- Kyriienko O, Krizhanovskii DN, Shelykh IA. (2019) Nonlinear quantum optics with trion-polaritons in 2D monolayers: conventional and unconventional photon blockade, DOI:10.48550/arxiv.1910.11294.
- Kyriienko O, Kibis OV, Shelykh IA. (2019) Optically induced topological states on the surface of mercury telluride, DOI:10.48550/arxiv.1903.04572.
- Betzold S, Dusel M, Kyriienko O, Dietrich CP, Klembt S, Ohmer J, Fischer U, Shelykh IA, Schneider C, Höfling S. (2019) Coherence and Interaction in confined room-temperature polariton condensates with Frenkel excitons, DOI:10.48550/arxiv.1906.02509.
- Emmanuele RPA, Sich M, Kyriienko O, Shahnazaryan V, Withers F, Catanzaro A, Walker PM, Benimetskiy FA, Skolnick MS, Tartakovskii AI. (2019) Highly nonlinear trion-polaritons in a monolayer semiconductor, DOI:10.48550/arxiv.1910.14636.
- Kibis OV, Kyriienko O, Shelykh IA. (2019) Topological Electronic States on the Surface of a Strained Gapless Semiconductor, Semiconductors, volume 53, no. 14, pages 1867-1869, DOI:10.1134/S1063782619140100.
- Emmanuele RPA, Sich M, Kyriienko O, Shahnazaryan V, Withers F, Catanzaro A, Walker PM, Benimetskiy FA, Skolnick MS, Tartakovskii AI. (2019) Highly nonlinear trion-polaritons in a monolayer semiconductor, Nature Communications, volume 11. [PDF]
- Betzold S, Dusel M, Kyriienko O, Dietrich CP, Klembt S, Ohmer J, Fischer U, Shelykh IA, Schneider C, Höfling S. (2019) Coherence and Interaction in confined room-temperature polariton condensates with Frenkel excitons. [PDF]
- Yagafarov T, Sannikov D, Zasedatelev A, Georgiou K, Baranikov A, Kyriienko O, Shelykh I, Gai L, Shen Z, Lidzey DG. (2019) On the origin of blueshifts in organic polariton condensates. [PDF]
- Kozin VK, Kyriienko O. (2019) Quantum Time Crystals from Hamiltonians with Long-Range Interactions, Phys. Rev. Lett, volume 123. [PDF]
- Shahnazaryan V, Kyriienko O, Rostami H. (2019) Exciton routing in the heterostructure of TMD and paraelectrics, Phys. Rev. B, volume 100. [PDF]
- Kyriienko O. (2019) Quantum inverse iteration algorithm for programmable quantum simulators, npj Quantum Information, volume 6. [PDF]
- Sigurdsson H, Kyriienko O, Dini K, Liew TCH. (2019) All-to-All Intramodal Condensate Coupling by Multifrequency Excitation of Polaritons, ACS PHOTONICS, volume 6, no. 1, pages 123-129, DOI:10.1021/acsphotonics.8b01017. [PDF]
- Kyriienko O, Kibis OV, Shelykh IA. (2019) Optically induced topological states on the surface of mercury telluride, PHYSICAL REVIEW B, volume 99, no. 11, article no. ARTN 115411, DOI:10.1103/PhysRevB.99.115411. [PDF]
- Kibis OV, Kyriienko O, Shelykh IA. (2019) Structure of surface electronic states in strained mercury telluride, NEW JOURNAL OF PHYSICS, volume 21, article no. ARTN 043016, DOI:10.1088/1367-2630/ab1406. [PDF]
- Kyriienko O, Sigurdsson H, Liew TCH. (2019) Probabilistic solving of NP-hard problems with bistable nonlinear optical networks, PHYSICAL REVIEW B, volume 99, no. 19, article no. ARTN 195301, DOI:10.1103/PhysRevB.99.195301. [PDF]
2018
- Dellantonio L, Kyriienko O, Marquardt F, Sørensen AS. (2018) Quantum nondemolition measurement of mechanical motion quanta, DOI:10.48550/arxiv.1801.02438.
- Kyriienko O, Sigurdsson H, Liew TCH. (2018) Solving NP-hard problems with bistable polaritonic networks, DOI:10.48550/arxiv.1808.00081.
- Sigurdsson H, Kyriienko O, Dini K, Liew TCH. (2018) All-to-all connected networks by multi-frequency excitation of polaritons. [PDF]
- Kyriienko O, Sorensen AS. (2018) Floquet Quantum Simulation with Superconducting Qubits, PHYSICAL REVIEW APPLIED, volume 9, no. 6, article no. ARTN 064029, DOI:10.1103/PhysRevApplied.9.064029. [PDF]
- Banerjee R, Liew TCH, Kyriienko O. (2018) Realization of Hofstadter's butterfly and a one-way edge mode in a polaritonic system, PHYSICAL REVIEW B, volume 98, no. 7, article no. ARTN 075412, DOI:10.1103/PhysRevB.98.075412. [PDF]
- Dellantonio L, Kyriienko O, Marquardt F, Sørensen AS. (2018) Quantum nondemolition measurement of mechanical motion quanta, Nat Commun, volume 9, no. 1, DOI:10.1038/s41467-018-06070-y. [PDF]
2017
- Shahnazaryan V, Iorsh I, Shelykh IA, Kyriienko O. (2017) Exciton-exciton interaction in transition-metal dichalcogenide monolayers, DOI:10.48550/arxiv.1706.01817.
- Kyriienko O, Kibis OV, Shelykh IA. (2017) Floquet control of dipolaritons in quantum wells, DOI:10.48550/arxiv.1706.04494.
- Bobrovska N, Matuszewski M, Liew TCH, Kyriienko O. (2017) Interactive optomechanical coupling with nonlinear polaritonic systems, PHYSICAL REVIEW B, volume 95, no. 8, article no. ARTN 085309, DOI:10.1103/PhysRevB.95.085309. [PDF]
- Shahnazaryan V, Iorsh I, Shelykh IA, Kyriienko O. (2017) Exciton-exciton interaction in transition-metal dichalcogenide monolayers, PHYSICAL REVIEW B, volume 96, no. 11, DOI:10.1103/PhysRevB.96.115409. [PDF]
- Kyriienko O, Kibis OV, Shelykh IA. (2017) Floquet control of dipolaritons in quantum wells, Opt Lett, volume 42, no. 12, pages 2398-2401, DOI:10.1364/OL.42.002398. [PDF]
- Semenenko MO, Babichuk IS, Kyriienko O, Bodnar IV, Caballero R, Leon M. (2017) RF Electromagnetic Field Treatment of Tetragonal Kesterite CZTSSe Light Absorbers, Nanoscale Res Lett, volume 12, no. 1, DOI:10.1186/s11671-017-2183-9. [PDF]
2016
- Shahnazaryan V, Shelykh IA, Kyriienko O. (2016) Attractive Coulomb interaction of 2D Rydberg excitons, DOI:10.48550/arxiv.1602.00423.
- Bobrovska N, Matuszewski M, Liew TCH, Kyriienko O. (2016) Interactive optomechanical coupling with nonlinear polaritonic systems, DOI:10.48550/arxiv.1611.03238.
- Kyriienko O, Liew TCH. (2016) Exciton-polariton quantum gates based on continuous variables, PHYSICAL REVIEW B, volume 93, no. 3, article no. ARTN 035301, DOI:10.1103/PhysRevB.93.035301. [PDF]
- Shahnazaryan V, Shelykh IA, Kyriienko O. (2016) Attractive Coulomb interaction of two-dimensional Rydberg excitons, PHYSICAL REVIEW B, volume 93, no. 24, article no. ARTN 245302, DOI:10.1103/PhysRevB.93.245302. [PDF]
- Kyriienko O, Sørensen AS. (2016) Continuous-Wave Single-Photon Transistor Based on a Superconducting Circuit, Phys Rev Lett, volume 117, no. 14, DOI:10.1103/PhysRevLett.117.140503. [PDF]
2015
- Liew TCH, Egorov OA, Matuszewski M, Kyriienko O, Ma X, Ostrovskaya EA. (2015) Instability-induced formation and non-equilibrium dynamics of phase defects in polariton condensates.
- Egorov OA, Liew TCH, Ma X, Matuszewski M, Kyriienko O, Ostrovskaya EA. (2015) Stability of vortices and spiraling waves in non-equilibrium polariton condensates, Nonlinear Optics, NLO 2015, DOI:10.1364/NLO.2015.NW4A.10.
- Kryuchkyan GY, Kyriienko O, Shelykh IA. (2015) Lamb shift of energy levels in quantum rings, JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS, volume 48, no. 2, article no. ARTN 025401, DOI:10.1088/0953-4075/48/2/025401. [PDF]
- Shahnazaryan V, Kyriienko O, Shelykh IA. (2015) Adiabatic preparation of a cold exciton condensate, PHYSICAL REVIEW B, volume 91, no. 8, article no. ARTN 085302, DOI:10.1103/PhysRevB.91.085302. [PDF]
- Liew TCH, Egorov OA, Matuszewski M, Kyriienko O, Ma X, Ostrovskaya EA. (2015) Instability-induced formation and nonequilibrium dynamics of phase defects in polariton condensates, PHYSICAL REVIEW B, volume 91, no. 8, article no. ARTN 085413, DOI:10.1103/PhysRevB.91.085413. [PDF]
- Kyriienko O, Wierschem K, Sengupta P, Shelykh IA. (2015) Quantum Hall bilayer as pseudospin magnet, EPL, volume 109, no. 5, article no. ARTN 57003, DOI:10.1209/0295-5075/109/57003. [PDF]
2014
- Shahnazaryan V, Kyriienko O, Shelykh I. (2014) Adiabatic preparation of a cold exciton condensate, DOI:10.48550/arxiv.1410.1379.
- Kyriienko O, Wierschem K, Sengupta P, Shelykh IA. (2014) Quantum Hall Bilayer as Pseudospin Magnet, DOI:10.48550/arxiv.1407.1528.
- Kyriienko O, Shelykh IA, Liew TCH. (2014) Tunable single photon emission from dipolaritons, DOI:10.48550/arxiv.1403.7441.
- Kyriienko O, Liew TCH. (2014) Triggered single photon emitters based on stimulated parametric scattering in weakly nonlinear systems, DOI:10.48550/arxiv.1409.2855.
- Espinosa-Ortega T, Kyriienko O, Kibis OV, Shelykh IA. (2014) Semiconductor cavity QED: Bandgap induced by vacuum fluctuations, DOI:10.48550/arxiv.1403.7911.
- Kryuchkyan GY, Kyriienko O, Shelykh IA. (2014) Lamb Shift of Energy Levels in Quantum Rings, DOI:10.48550/arxiv.1408.5105.
- Tsotsis P, Tsintzos SI, Christmann G, Lagoudakis PG, Kyriienko O, Shelykh IA, Baumberg JJ, Kavokin AV, Hatzopoulos Z, Eldridge PS. (2014) Tuning the Energy of a Polariton Condensate via Bias-Controlled Rabi Splitting, PHYSICAL REVIEW APPLIED, volume 2, no. 1, article no. ARTN 014002, DOI:10.1103/PhysRevApplied.2.014002. [PDF]
- Espinosa-Ortega T, Kyriienko O, Kibis OV, Shelykh IA. (2014) Semiconductor cavity QED: Bandgap induced by vacuum fluctuations, Phys. Rev. A, volume 89. [PDF]
- Semenenko M, Kyriienko O, Yilmazoglu O, Steblova O, Klyui N. (2014) Photo-assisted field emission and electro-reflectance modulation investigations of GaN nanorod arrays, THIN SOLID FILMS, volume 564, pages 218-221, DOI:10.1016/j.tsf.2014.06.017. [PDF]
- Kyriienko O, Ostrovskaya EA, Egorov OA, Shelykh IA, Liew TCH. (2014) Bistability in microcavities with incoherent optical or electrical excitation, PHYSICAL REVIEW B, volume 90, no. 12, article no. ARTN 125407, DOI:10.1103/PhysRevB.90.125407. [PDF]
- Kyriienko O, Shelykh IA, Liew TCH. (2014) Tunable single-photon emission from dipolaritons, PHYSICAL REVIEW A, volume 90, no. 3, article no. ARTN 033807, DOI:10.1103/PhysRevA.90.033807. [PDF]
- Kyriienko O, Liew TCH. (2014) Triggered single-photon emitters based on stimulated parametric scattering in weakly nonlinear systems, PHYSICAL REVIEW A, volume 90, no. 6, article no. ARTN 063805, DOI:10.1103/PhysRevA.90.063805. [PDF]
- Kyriienko O, Liew TCH, Shelykh IA. (2014) Optomechanics with cavity polaritons: dissipative coupling and unconventional bistability, Phys Rev Lett, volume 112, no. 7, DOI:10.1103/PhysRevLett.112.076402. [PDF]
2013
- Kyriienko O, Shelykh IA, Kavokin AV. (2013) Terahertz emission in polaritonic systems with nitrides, III-Nitride Semiconductors and their Modern Devices, Oxford University Press (OUP), 586-618, DOI:10.1093/acprof:oso/9780199681723.003.0016.
- Kristinsson K, Kyriienko O, Liew TCH, Shelykh IA. (2013) Continuous THz emission from dipolaritons, DOI:10.48550/arxiv.1304.1316.
- Kyriienko O, Liew TCH, Shelykh IA. (2013) Optomechanics with Cavity Polaritons: Dissipative Coupling and Unconventional Bistability, DOI:10.48550/arxiv.1308.2131.
- Kibis OV, Kyriienko O, Shelykh IA. (2013) Persistent current induced by vacuum fluctuations in a quantum ring, DOI:10.48550/arxiv.1305.1553.
- Kyriienko O, Liew TCH, Ostrovskaya EA, Egorov OA, Shelykh IA. (2013) Bistability in Microcavities with Incoherent Optical or Electrical Excitation, DOI:10.48550/arxiv.1310.4130.
- Kristinsson K, Kyriienko O, Shelykh IA. (2013) THz laser based on dipolaritons, DOI:10.48550/arxiv.1310.7414.
- Sigurdsson H, Liew TCH, Kyriienko O, Shelykh IA. (2013) Vortices in spinor cold exciton condensates with spin-orbit interaction, DOI:10.48550/arxiv.1310.0877.
- Kristinsson K, Kyriienko O, Liew TCH, Shelykh IA. (2013) Continuous THz emission from dipolaritons, Phys. Rev. B, volume 88. [PDF]
- Sigurdsson H, Liew TCH, Kyriienko O, Shelykh IA. (2013) Vortices in spinor cold exciton condensates with spin-orbit interaction, Phys. Rev. B, volume 89. [PDF]
- Kibis OV, Kyriienko O, Shelykh IA. (2013) Persistent current induced by vacuum fluctuations in a quantum ring, Phys. Rev. B, volume 87. [PDF]
- Kristinsson K, Kyriienko O, Shelykh IA. (2013) THz laser based on dipolaritons, Phys. Rev. A, volume 89. [PDF]
- Kyriienko O, Kavokin AV, Shelykh IA. (2013) Terahertz emitter based on dipolaritons, TERAHERTZ EMITTERS, RECEIVERS, AND APPLICATIONS IV, volume 8846, DOI:10.1117/12.2023561. [PDF]
- Kyriienko O, Kavokin AV, Shelykh IA. (2013) Superradiant terahertz emission by dipolaritons, Phys Rev Lett, volume 111, no. 17, DOI:10.1103/PhysRevLett.111.176401. [PDF]
- Arnardottir KB, Kyriienko O, Portnoi ME, Shelykh IA. (2013) One-dimensional Van Hove polaritons, Physical Review B - Condensed Matter and Materials Physics, volume 87, no. 12, DOI:10.1103/PhysRevB.87.125408.
2012
- Kyriienko O, Magnusson EB, Shelykh IA. (2012) Spin-orbit coupled cold exciton condensates, DOI:10.48550/arxiv.1204.2721.
- Kyriienko O, Shelykh IA. (2012) Intersubband polaritons with spin-orbit interaction, DOI:10.48550/arxiv.1210.3282.
- Arnardottir KB, Kyriienko O, Shelykh IA. (2012) Hall effect for indirect excitons in an inhomogeneous magnetic field, DOI:10.48550/arxiv.1207.2880.
- Kyriienko O, Kavokin AV, Shelykh IA. (2012) Superradiant terahertz emission by dipolaritons, DOI:10.48550/arxiv.1211.0688.
- Arnardottir KB, Kyriienko O, Portnoi ME, Shelykh IA. (2012) One-dimensional Van Hove polaritons, DOI:10.48550/arxiv.1211.0881.
- Espinosa-Ortega T, Kyriienko O, Shelykh IA. (2012) BCS pairing in fully repulsive fermion mixtures, DOI:10.48550/arxiv.1209.0232.
- Arnardottir KB, Kyriienko O, Shelykh IA. (2012) Hall effect for indirect excitons in an inhomogeneous magnetic field, Phys. Rev. B, volume 86. [PDF]
- Kyriienko O, Magnusson EB, Shelykh IA. (2012) Spin-orbit coupled cold exciton condensates, Phys. Rev. B, volume 86. [PDF]
- Espinosa-Ortega T, Kyriienko O, Shelykh IA. (2012) BCS pairing in fully repulsive fermion mixtures, Phys. Rev. A, volume 86. [PDF]
- Kyriienko O, Shelykh IA. (2012) Intersubband polaritons with spin-orbit interaction, Phys. Rev. B, volume 87. [PDF]
- Kyriienko O, Shelykh IA. (2012) Intersubband polaritonics revisited, JOURNAL OF NANOPHOTONICS, volume 6, article no. ARTN 061804, DOI:10.1117/1.JNP.6.061804. [PDF]
2011
- Kibis OV, Kyriienko O, Shelykh IA. (2011) Band gap in graphene induced by vacuum fluctuations, DOI:10.48550/arxiv.1108.5478.
- Kyriienko O, Shelykh IA. (2011) Angle-resolved reflectance and surface plasmonics of the MAX phases, DOI:10.48550/arxiv.1110.2913.
- Kyriienko O, Shelykh IA. (2011) Elementary excitations in spinor polariton- electron systems, DOI:10.48550/arxiv.1103.0815.
- Kyriienko O, Shelykh IA. (2011) Intersubband polaritonics revisited, DOI:10.48550/arxiv.1112.0240.
- Kyriienko O, Shelykh IA. (2011) Effective interactions in a hybrid polariton-electron system, Proceedings of International Conference NANOMEETING 2011: Physics, Chemistry and Applications of Nanostructures - Reviews and Short Notes, pages 58-61, DOI:10.1142/9789814343909_0011.
- Kibis OV, Kyriienko O, Shelykh IA. (2011) Band gap in graphene induced by vacuum fluctuations, Phys. Rev. B, volume 84. [PDF]
- Kyriienko O, Shelykh IA. (2011) Elementary excitations in spinor polariton- electron systems. [PDF]
- Kyriienko O, Shelykh IA. (2011) Angle-resolved reflectance and surface plasmonics of the MAX phases, Opt Lett, volume 36, no. 20, pages 3966-3968, DOI:10.1364/OL.36.003966. [PDF]
2010
- Evtukh A, Yilmazoglu O, Litovchenko V, Semenenko M, Kyriienko O, Hartnagel HL, Pavlidis D. (2010) Peculiarities of the photon-assisted field emissions from GaN nanorods, JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, volume 28, no. 2, pages C2A72-C2A76, DOI:10.1116/1.3368463. [PDF]
2009
- Evtukh A, Semenenko M, Kyriienko O, Litovchenko V, Yilmazoglu O, Hartnagel H, Pavlidis D. (2009) The peculiarities of the photon assisted field emissions from GaN nanorods, Technical Digest - 2009 22nd International Vacuum Nanoelectronics Conference, IVNC 2009, pages 121-122, DOI:10.1109/IVNC.2009.5271848.
Further information
Personal Homepage
Dr. Oleksandr Kyriienko is a Ukrainian theoretical physicist working in the fields of quantum optics, condensed matter physics, and quantum computing.
Currently he is a Lecturer (Assistant Professor) at the Physics department of the University of Exeter. Previously he was a Fellow at the Nordic Institute for Theoretical Physics (NORDITA), located in Stockholm, Sweden. He did postdoctoral research at the Niels Bohr Institute, University of Copenhagen, and obtained the PhD degree from the University of Iceland.
Dr Kyriienko started out as a theoretical physicist in condensed-matter physics, but he applied it to optics and semiconductor systems that are used to create lasers, which are actively used in the industry. In particular, he has been working on a theoretical design of a new type of lasers called “polariton lasers”. Since quantum optical systems have other excellent properties, like the ability to process quantum information and distribute it in the network, he grew strong interested in quantum computing and has a strong focus on the area. Herem, the combination of strong light-matter coupling and quantum information processing represents the ultimate goal, leading to development of quantum polaritonics.
Academic Employments
♦ Sep 2019 – present Lecturer (Assistant Professor), University of Exeter, Exeter, UK.
♦ Nov 2017 – Aug 2019 Fellow, Nordic Institute for Theoretical Physics (NORDITA), Stockholm, Sweden.
♦ Oct 2014 – Oct 2017 Postdoctoral Researcher, Niels Bohr Institute, University of Copenhagen, Denmark.
♦ May 2012 – Sep 2014 Research Assistant, Nanyang Technological University, Singapore.
♦ Nov 2010 – Sep 2014 PhD student, Science Institute, University of Iceland, Reykjavik, Iceland.
Other Research Employments
♦ Aug 2020 – present Industrial partnership project with the start-up Qu&Co (Amsterdam) to develop novel quantum software.
♦ Feb 2019 – 2020 Visiting Fellow, ITMO University, St. Petersburg, Russia.
♦ Oct 2016, 2017, 2018, Visiting Professor, Science Institute, University of Iceland, Reykjavik, Iceland.
♦ Nov–Dec 2015 Visiting scientist, KITP, Santa Barbara, CA.
♦ Jan–Feb 2012 Visiting PhD student, NORDITA, Stockholm, Sweden.
♦ Feb–Aug 2011 Visiting PhD student, International Institute of Physics, Natal, Brazil.
♦ Nov–Dec 2008 Visiting Scholar (BMBF internship), Technische Universitat Darmstadt, Darmstadt, Germany.
Grants
♦ Sep 2020 – Feb 2024 New Investigator grant from EPSRC: £350K.
♦ Nov 2017 – Nov 2019 Recipient of the individual research fellowship from the Nordic Institute for Theoretical Physics, Stockholm.
♦ Jun 2015 – Dec 2018 External expert (Visiting Professor) for the Rannis excellence grant 163082-051 “Bose and Fermi systems for spintronics,” University of Iceland.
♦ Nov 2011 – Oct 2014 Recipient of the grant for outstanding PhD students at the University of Iceland (Reykjavik, Iceland) from the Eimskip Foundation. Total budget: 11,239,596.00 ISK.
Education
♦ Nov 2010 – Sep 2014 Doctor of Philosophy (Theoretical Physics), University of Iceland, Reykjavik, Iceland. Advisor: Prof. Ivan A. Shelykh.
♦ Sep 2008 – Jul 2010 Master of Science (Physics), Taras Shevchenko National University of Kiev and Institute of Semiconductor Physics, Kiev, Ukraine.
♦ Sep 2004 – Jul 2008 Bachelor of Science (Physics), Taras Shevchenko National University of Kiev, Kiev, Ukraine.
Group Members
♦ Salvatore Chiavazzo PhD student
Salvatore finished his Bachelor degree in Physics at University of Naples (Italy), 2017. He acomplished his Master degree in Physics (Condensed Matter training track) at University of Trieste (Italy), 2019.
During 2019 – Visitor at Institute for Quantum Computing, Waterloo (Canada) to carry out master thesis project. The research stay was funded with the Extra-Erasmus scholarship.
From 2020 – PhD student at the University of Exeter in the QuDOS group.
Salvatore Chiavazzo research is focused on two-dimensional materials, strong light-matter coupling, and optomechanics. To date, he has successfully described and characterized of two-phonon cooling in electromechanical systems that operate in microwave domain.
His current research activity includes theoretical description of dipolaritons in TMD bilayers and its application to single photon emission.
♦ Annie Paine PhD student
Annie recived her Bachelor in Mathematics at University of Oxford (UK) 2018. And finished Master degree in Mathematical and Theoretical Physics at University of Oxford (UK) 2019.
Between years at university she has completed two internships, both of which were programming related. There she improved her programming skills (particularly in C++, Python and Rust) as well as experiencing working in a team in a professional setting. At her second internship with Metaswitch Annie gained experience in presenting her works progress and results as she was placed in a team which had daily meetings in which everyone reported their progress.
From 2020 Annie is a PhD student in Quantum Computing group under the supervision of Dr. Kyriienko at the University of Exeter.
Her project is focused on finding useful quantum algorithms for near term quantum devices. To deal with the limitations of near term quantum devices she is particularly interested in hybrid and variational approaches. The areas of application that she is focused on include differential equations, which permeate many different areas of study, and finding the ground state energy of a system, a question of great interest in computational Chemistry.
♦ Tatiana Bespalova MSc student as a part of research collaboration
Tatiana has accomplished her Bachelor degree in Applied Mathematics and Physics at Saint Petersburg Academic University (Saint Petersburg, Russia), 2019
From 2019 Tatiana is a MSc student at ITMO University (Saint Petersburg, Russia)
Her research during the education included performing molecular modeling and also an exploration of nonperturbative effects in quantum field theory. She hopes to develop or realize quantum algorithms to solve some of the problems in these areas one day. After her bachelor graduation she has decided to take the challenge of exploring the area of quantum computations. As there is no courses on this topic in Russia she has studied it by herself with the book of Nielsen and Chuang and other literature. Having got the basic knowledge in the field of quantum computations she started research on Hamiltonian operator simulation. In 2020 Tatiana applied for an internship at University of Exeter as a part of research collaboration with QuDOS group and to work personally with Dr. Oleksandr Kyriienko as her superviser to perform a research on Hamiltonian operator simulation.