Dr. Sc., Professor
Golubeva Tatiana Yurievna
Голубева Татьяна Юрьевна
Dr.Sc., Professor
Date and place of birth:
16th of March 1972, St.Petersburg, Russia
Affiliation and official address:
Saint Petersburg State University
7/9, Universitetskaya nab., Saint Petersburg, 199034 Russia
Postal and visiting address:
Room A-312, Quantum Optics Lab,
Physics Faculty, Saint Petersburg State University,
3, Uljanovskaya ul., Peterhof, St. Petersburg, 198504 Russia
e-mail: tania.golubeva [at] gmail.com
mobile: +7 911 213 63 56
office tel.: +7 (812) 428 43 38
fax: +7 (812) 428 7240
ORCID: 0000-0002-1139-8531
SCOPUS ID: 16021827600
ResearcherID: I-7558-2013
Researchgate: link
РИНЦ (SPIN-код): 1189-5807
Pure: link
16th of March 1972, St.Petersburg, Russia
Affiliation and official address:
Saint Petersburg State University
7/9, Universitetskaya nab., Saint Petersburg, 199034 Russia
Postal and visiting address:
Room A-312, Quantum Optics Lab,
Physics Faculty, Saint Petersburg State University,
3, Uljanovskaya ul., Peterhof, St. Petersburg, 198504 Russia
e-mail: tania.golubeva [at] gmail.com
mobile: +7 911 213 63 56
office tel.: +7 (812) 428 43 38
fax: +7 (812) 428 7240
ORCID: 0000-0002-1139-8531
SCOPUS ID: 16021827600
ResearcherID: I-7558-2013
Researchgate: link
РИНЦ (SPIN-код): 1189-5807
Pure: link
Main Publications
2024
E. N. Bashmakova, E.A. Vashukevich, T. Yu. Golubeva, Parallel multi-two-qubit SWAP gate via QND interaction of OAM light and atomic ensemble. Phys. Rev. A 109, 012428 (https://arxiv.org/abs/2306.16565)
2023
Э.Р. Зинатуллин, С.Б. Королев, Т.Ю. Голубева, Операция кубического фазового затвора для уменьшения ошибки двухмодовых преобразований. Оптика и спектроскопия, 11 (131), 1572 (2023). DOI: 10.61011/OS.2023.11.57028.5729-2
S. B. Korolev, E. N. Bashmakova, T. Yu. Golubeva, Error Correction Using Squeezed Fock States (https://arxiv.org/abs/2312.16000)
S. B. Korolev, E. N. Bashmakova, A. K. Tagantsev, T. Yu. Golubeva, Generation of squeezed Fock states by measurement (https://arxiv.org/abs/2312.14643)
Е.Н. Башмакова, Е.А. Вашукевич, Т.Ю. Голубева, Параллельная многокубитная эволюция в протоколе квантового неразрушающего взаимодействия. Оптика и спектроскопия 131 (7), 949-957 (2023).
E. N. Bashmakova, S. B. Korolev, T. Yu. Golubeva, Effect of entanglement in the generalized photon subtraction scheme. Laser Phys. Lett. 20 115203, 2023 (https://arxiv.org/abs/2306.14148)
A. Chernikov, S.S. Sysoev, E.A. Vashukevich, T.Yu. Golubeva. Heralded gate search with genetic algorithms for quantum computation. Phys. Rev. A 108, 012609 (https://arxiv.org/abs/2303.05855)
E.R. Zinatullin, S.B. Korolev, and T.Yu. Golubeva. Teleportation protocols with non-Gaussian operations: conditional photon subtraction versus cubic phase gate. Phys. Rev. A 107, 022422 (https://arxiv.org/abs/2210.04531)
S. B. Korolev, E. N. Bashmakova, T. Yu. Golubeva, Error Correction Using Squeezed Fock States (https://arxiv.org/abs/2312.16000)
S. B. Korolev, E. N. Bashmakova, A. K. Tagantsev, T. Yu. Golubeva, Generation of squeezed Fock states by measurement (https://arxiv.org/abs/2312.14643)
Е.Н. Башмакова, Е.А. Вашукевич, Т.Ю. Голубева, Параллельная многокубитная эволюция в протоколе квантового неразрушающего взаимодействия. Оптика и спектроскопия 131 (7), 949-957 (2023).
E. N. Bashmakova, S. B. Korolev, T. Yu. Golubeva, Effect of entanglement in the generalized photon subtraction scheme. Laser Phys. Lett. 20 115203, 2023 (https://arxiv.org/abs/2306.14148)
A. Chernikov, S.S. Sysoev, E.A. Vashukevich, T.Yu. Golubeva. Heralded gate search with genetic algorithms for quantum computation. Phys. Rev. A 108, 012609 (https://arxiv.org/abs/2303.05855)
E.R. Zinatullin, S.B. Korolev, and T.Yu. Golubeva. Teleportation protocols with non-Gaussian operations: conditional photon subtraction versus cubic phase gate. Phys. Rev. A 107, 022422 (https://arxiv.org/abs/2210.04531)
2022
E.R. Zinatullin, S.B. Korolev, A. D. Manukhova and T.Yu. Golubeva. Error of an arbitrary single-mode Gaussian transformation on a weighted cluster state using a cubic phase gate. Phys.Rev. A 106, 032414 (2022) (https://arxiv.org/abs/2207.09548)
E.A. Vashukevich, V.V. Lebedev, I.V. Ilichev, P.M. Agruzov, A.V. Shamrai, V.M. Petrov, and T.Yu. Golubeva. Broadband Chip-Based Source of Quantum Noise with Electrically Controllable Beam Splitter. Phys. Rev. Applied 17, 064039 (https://arxiv.org/abs/2109.09570)
S.B. Korolev, T.Yu. Golubeva. Error correction of the continuous-variable quantum hybrid computation on two-node cluster states: Limit of squeezing. Physics Letters A, 441,128149 (2022)
E.A. Vashukevich, E.N. Bashmakova, T.Yu. Golubeva and Yu.M. Golubev. High-fidelity quantum gates for OAM single qudits on quantum memory. Laser Phys. Lett. 19 025202 (2022)
E.A. Vashukevich, V.V. Lebedev, I.V. Ilichev, P.M. Agruzov, A.V. Shamrai, V.M. Petrov, and T.Yu. Golubeva. Broadband Chip-Based Source of Quantum Noise with Electrically Controllable Beam Splitter. Phys. Rev. Applied 17, 064039 (https://arxiv.org/abs/2109.09570)
S.B. Korolev, T.Yu. Golubeva. Error correction of the continuous-variable quantum hybrid computation on two-node cluster states: Limit of squeezing. Physics Letters A, 441,128149 (2022)
E.A. Vashukevich, E.N. Bashmakova, T.Yu. Golubeva and Yu.M. Golubev. High-fidelity quantum gates for OAM single qudits on quantum memory. Laser Phys. Lett. 19 025202 (2022)
2021
Е.Н. Башмакова, Е.А. Вашукевич, Т.Ю. Голубева, Ю.М. Голубев. Высокоэффективная генерация сжатых состояний света на основе мод Лагерра-Гаусса в резонаторе. Оптика и спектроскопия 11, 1410 (2021). DOI: 10.21883/OS.2021.11.51641.2484-21
[Bashmakova E. N., Vashukevich E. A., Golubeva T. Yu. , Golubev Yu. M. Highly efficient generation of squeezed states of light based on Laguerre-Gaussian modes in a cavity//Opt. Spectrosc. 130 (14), 2120 (2022) DOI: 10.21883/EOS.2022.14.53997.2484-21]
E.R. Zinatullin, S.B. Korolev, and T.Yu. Golubeva. Teleportation with a cubic phase gate. Phys. Rev. A 104, 032420 (2021).
E. Zinatullin, S. Korolev, T. Golubeva. Controlled-Z operation versus the beam-splitter transformation: Errors of entangled operations. Phys. Rev. A 103, 062407 (2021) (arXiv:2103.11009 [quant-ph])
[Bashmakova E. N., Vashukevich E. A., Golubeva T. Yu. , Golubev Yu. M. Highly efficient generation of squeezed states of light based on Laguerre-Gaussian modes in a cavity//Opt. Spectrosc. 130 (14), 2120 (2022) DOI: 10.21883/EOS.2022.14.53997.2484-21]
E.R. Zinatullin, S.B. Korolev, and T.Yu. Golubeva. Teleportation with a cubic phase gate. Phys. Rev. A 104, 032420 (2021).
E. Zinatullin, S. Korolev, T. Golubeva. Controlled-Z operation versus the beam-splitter transformation: Errors of entangled operations. Phys. Rev. A 103, 062407 (2021) (arXiv:2103.11009 [quant-ph])
2020
A.S. Losev, T.Yu. Golubeva, A.D. Manukhova, and Yu.M. Golubev. Two-photon bunching inside a quantum memory cell.
Phys. Rev. A 102, 042603 (2020). doi.org/10.1103/PhysRevA.102.042603. arXiv:2005.06806 [quant-ph]
Э.Р. Зинатуллин, K.С. Тихонов, T.Ю. Голубева, Ю.M. Голубев. Влияние дифракции на импульс сжатого света в протоколе многомодовой резонансной квантовой памяти на тепловом атомном ансамбле. Оптика и Спектроскопия 128(9), 1346-1362 (2020). [E.R. Zinatullin, K.S. Tikhonov, T.Yu. Golubeva and Yu.M. Golubev. The Effect of Diffraction on a Pulse of Squeezed Light in the Protocol of a Multimode Resonant Quantum Memory Based on a Thermal Atomic Ensemble // Opt. Spectrosc. 128, 9, 1458-1474 (2020) https://doi.org/10.1134/S0030400X20090258].
T. Yu. Golubeva, Yu. M. Golubev, S. V. Fedorov, L. A. Nesterov & N. N. Rosanov. Quantum Fluctuations in a Laser Soliton. Optics and Spectroscopy 128, 505 (2020).
S.B. Korolev, T.Yu. Golubeva, and Yu.M. Golubev. Finding the optimal cluster state configuration. Minimization of one-way quantum computation errors. Laser Phys. Lett. 17, 055205 (2020). https://doi.org/10.1088/1612-202X/ab83ff
E.A. Vashukevich, T.Yu. Golubeva, and Yu.M. Golubev. Conversion and storage of modes with orbital angular momentum in a quantum memory scheme. Phys. Rev. A 101, 033830 (2020). https://doi.org/10.1103/PhysRevA.101.033830
S.B. Korolev, T.Yu. Golubeva, Yu.M. Golubev. Finding the optimal cluster state configuration. Cluster states classification by type of computations. Laser Phys. Lett. 17, 035207 (2020). (arXiv:1911.11511 [quant-ph]).
Phys. Rev. A 102, 042603 (2020). doi.org/10.1103/PhysRevA.102.042603. arXiv:2005.06806 [quant-ph]
Э.Р. Зинатуллин, K.С. Тихонов, T.Ю. Голубева, Ю.M. Голубев. Влияние дифракции на импульс сжатого света в протоколе многомодовой резонансной квантовой памяти на тепловом атомном ансамбле. Оптика и Спектроскопия 128(9), 1346-1362 (2020). [E.R. Zinatullin, K.S. Tikhonov, T.Yu. Golubeva and Yu.M. Golubev. The Effect of Diffraction on a Pulse of Squeezed Light in the Protocol of a Multimode Resonant Quantum Memory Based on a Thermal Atomic Ensemble // Opt. Spectrosc. 128, 9, 1458-1474 (2020) https://doi.org/10.1134/S0030400X20090258].
T. Yu. Golubeva, Yu. M. Golubev, S. V. Fedorov, L. A. Nesterov & N. N. Rosanov. Quantum Fluctuations in a Laser Soliton. Optics and Spectroscopy 128, 505 (2020).
S.B. Korolev, T.Yu. Golubeva, and Yu.M. Golubev. Finding the optimal cluster state configuration. Minimization of one-way quantum computation errors. Laser Phys. Lett. 17, 055205 (2020). https://doi.org/10.1088/1612-202X/ab83ff
E.A. Vashukevich, T.Yu. Golubeva, and Yu.M. Golubev. Conversion and storage of modes with orbital angular momentum in a quantum memory scheme. Phys. Rev. A 101, 033830 (2020). https://doi.org/10.1103/PhysRevA.101.033830
S.B. Korolev, T.Yu. Golubeva, Yu.M. Golubev. Finding the optimal cluster state configuration. Cluster states classification by type of computations. Laser Phys. Lett. 17, 035207 (2020). (arXiv:1911.11511 [quant-ph]).
2019
T.Yu. Golubeva, Yu.M. Golubev, S.V. Fedorov, L.A. Nesterov, E.A. Vashukevich, N.N. Rosanov, "Quantum theory of a laser soliton",
Laser Physics Letters, Volume 16, Number 12 (2019). DOI: https://doi.org/10.1088/1612-202X/ab5645 (http://arxiv.org/abs/1911.04138 (2019)).
К.С. Тихонов, А.Д. Манухова, С.Б. Королев, Т.Ю. Голубева, Ю.М. Голубев, "Управляемый логический вентиль на четырехузловом линейном гибридном кластерном состоянии", Оптика и спектроскопия, 11, 811 (2019) (http://dx.doi.org/10.21883/OS.2019.11.48520.141-19).
S.B. Korolev, A.N. Dobrotvorskaia, T.Yu. Golubeva, Yu.M. Golubev. Quantum computations on the ensemble of two-node cluster states, obtained by sub-Poissonian lasers. Laser Phys. Lett. 16 075204 (2019). (arXiv:1901.04864 [quant-ph].)
E. A. Vashukevich, A. S. Losev, T. Y. Golubeva, and Y. M. Golubev. Squeezed supermodes and cluster states based on modes with orbital angular momentum. Phys. Rev. A 99, 023805 (2019). (arXiv:1810.11821 [quant-ph].)
Laser Physics Letters, Volume 16, Number 12 (2019). DOI: https://doi.org/10.1088/1612-202X/ab5645 (http://arxiv.org/abs/1911.04138 (2019)).
К.С. Тихонов, А.Д. Манухова, С.Б. Королев, Т.Ю. Голубева, Ю.М. Голубев, "Управляемый логический вентиль на четырехузловом линейном гибридном кластерном состоянии", Оптика и спектроскопия, 11, 811 (2019) (http://dx.doi.org/10.21883/OS.2019.11.48520.141-19).
S.B. Korolev, A.N. Dobrotvorskaia, T.Yu. Golubeva, Yu.M. Golubev. Quantum computations on the ensemble of two-node cluster states, obtained by sub-Poissonian lasers. Laser Phys. Lett. 16 075204 (2019). (arXiv:1901.04864 [quant-ph].)
E. A. Vashukevich, A. S. Losev, T. Y. Golubeva, and Y. M. Golubev. Squeezed supermodes and cluster states based on modes with orbital angular momentum. Phys. Rev. A 99, 023805 (2019). (arXiv:1810.11821 [quant-ph].)
2018
Yu. M. Golubev, T. Yu. Golubeva, E. A. Vashukevich, S. V. Fedorov, N. N. Rosanov. Effect of saturated absorption on sub-Poissonian losing. Laser Phys. Lett. 16, 025201 (2018). (arXiv:1811.04672 [quant-ph].)
S. B. Korolev, E. A. Vashukevich, T. Yu. Golubeva, Yu. M. Golubev. On the mathematical and physical approaches to constructing a quantum cluster state in continuous variables, or is it possible to build a cluster of different modes? Quantum Electron, 48 (10), 906–911 (2018). [С.Б. Королев, Е.А. Вашукевич, Т.Ю. Голубева, Ю.М. Голубев. О математическом и физическом подходах к построению квантового кластерного состояния в непрерывных переменных, или можно ли построить кластер из разных мод? Квантовая Электроника, 48 (10), 906-911 (2018).]
S.B. Korolev, A. D. Manukhova, K. S. Tikhonov, T. Y. Golubeva and Y. M. Golubev. Criteria of minimum squeezing for quantum cluster state generation. Laser Phys. Lett. 15, 075203 (2018).
S. B. Korolev, E. A. Vashukevich, T. Yu. Golubeva, Yu. M. Golubev. On the mathematical and physical approaches to constructing a quantum cluster state in continuous variables, or is it possible to build a cluster of different modes? Quantum Electron, 48 (10), 906–911 (2018). [С.Б. Королев, Е.А. Вашукевич, Т.Ю. Голубева, Ю.М. Голубев. О математическом и физическом подходах к построению квантового кластерного состояния в непрерывных переменных, или можно ли построить кластер из разных мод? Квантовая Электроника, 48 (10), 906-911 (2018).]
S.B. Korolev, A. D. Manukhova, K. S. Tikhonov, T. Y. Golubeva and Y. M. Golubev. Criteria of minimum squeezing for quantum cluster state generation. Laser Phys. Lett. 15, 075203 (2018).
2017
A.D. Manukhova, K.S. Tikhonov, T.Yu. Golubeva, and Yu.M. Golubev. Noiseless signal shaping and cluster-state generation with a quantum memory cell. Phys. Rev. A 96, 023851 (2017). (arXiv:1706.07249 [quant-ph].)
S.B. Korolev, K.S. Tikhonov, T.Yu. Golubeva, Yu.M. Golubev. Clusters on the Basis of Bright Multimode Light in a Mixed State. Optics and Spectroscopy 123 (3), 411–418 (2017). [С.Б. Королев, К.С. Тихонов, Т.Ю. Голубева, Ю.М. Голубев. Кластеры на основе яркого многомодового света в смешанном состоянии. Оптика и спекторскопия, 123 (3), 384-392 (2017).]
A.S. Losev, T.Yu. Golubeva, and Yu.M. Golubev. Manipulation of quantum states in a memory cell: controllable Mach–Zehnder interferometer. Laser Phys. Lett. 14, 055208 (2017). (arXiv:1612.00975 [quant-ph].)
A.D. Manukhova, K.S. Tikhonov, T.Yu. Golubeva, and Yu.M. Golubev. Preservation of quantum correlations in a femtosecond light pulse train within an atomic ensemble. Phys. Rev. A 95, 013801. (arXiv:1611.00703 [quant-ph]).
S.B. Korolev, K.S. Tikhonov, T.Yu. Golubeva, Yu.M. Golubev. Clusters on the Basis of Bright Multimode Light in a Mixed State. Optics and Spectroscopy 123 (3), 411–418 (2017). [С.Б. Королев, К.С. Тихонов, Т.Ю. Голубева, Ю.М. Голубев. Кластеры на основе яркого многомодового света в смешанном состоянии. Оптика и спекторскопия, 123 (3), 384-392 (2017).]
A.S. Losev, T.Yu. Golubeva, and Yu.M. Golubev. Manipulation of quantum states in a memory cell: controllable Mach–Zehnder interferometer. Laser Phys. Lett. 14, 055208 (2017). (arXiv:1612.00975 [quant-ph].)
A.D. Manukhova, K.S. Tikhonov, T.Yu. Golubeva, and Yu.M. Golubev. Preservation of quantum correlations in a femtosecond light pulse train within an atomic ensemble. Phys. Rev. A 95, 013801. (arXiv:1611.00703 [quant-ph]).
2016
A.S. Losev, K.S. Tikhonov, T.Yu. Golubeva and Yu.M. Golubev. Storage and conversion of quantum-statistical properties of light in resonant quantum memory on a tripod atomic configuration. Journal of Physics B: 49 (19), 2016. (arXiv:1602.02364v1 [quant-ph].)
2015
T. Golubeva, Y. Golubev. Efficiency in multimode broadband resonant quantum memory. Journal of Russian Laser Research, 36 (6), 522-533 (2015).
K. Tikhonov, T. Golubeva, Y. Golubev. Atomic thermal motion effect on efficiency of a high-speed quantum memory. Eur. Phys. Journal D, 69, 252 (2015).
К. Тихонов, Т. Голубева, Ю. Голубев. Перепутанные состояния сигнальных импульсов в многомодовой квантовой памяти. Оптика и спектроскопия, 118 (5), 807-814 (2015) [K.S. Tikhonov, T.Yu. Golubeva , Yu.M. Golubev. Entangled states of signal pulses in multimode quantum memory. Optics and Spectroscopy, 118 (5), 773-780 (2015)].
K. Tikhonov, T. Golubeva, Y. Golubev. Atomic thermal motion effect on efficiency of a high-speed quantum memory. Eur. Phys. Journal D, 69, 252 (2015).
К. Тихонов, Т. Голубева, Ю. Голубев. Перепутанные состояния сигнальных импульсов в многомодовой квантовой памяти. Оптика и спектроскопия, 118 (5), 807-814 (2015) [K.S. Tikhonov, T.Yu. Golubeva , Yu.M. Golubev. Entangled states of signal pulses in multimode quantum memory. Optics and Spectroscopy, 118 (5), 773-780 (2015)].
2014
T. Golubeva, Yu. Golubev. Purity and Covariance Matrix. Journal of Russian Laser Research, 35 (1), 47 (2014).
K. Tikhonov, K. Samburskaya, T. Golubeva, Yu. Golubev. Storage and retrieval of squeezing in multimode resonant quantum memories. Phys. Rev. A, 89, 013811 (2014).
K. Tikhonov, K. Samburskaya, T. Golubeva, Yu. Golubev. Storage and retrieval of squeezing in multimode resonant quantum memories. Phys. Rev. A, 89, 013811 (2014).
2012
T. Golubeva, Yu. Golubev, O. Mishina, A. Bramati, J. Laurat, E. Giacobino. High speed spatially multimode Lambda-type atomic memory with arbitrary frequency detuning. Eur. Phys. Journ. D, 66, 275 (2012).
К. С. Самбурская, Т. Ю. Голубева, В. А. Аверченко, Ю. М. Голубев. Квадратурное сжатие в изолированном импульсе света. Оптика и спектроскопия, 113 (1), 88-98 (2012) [K. S. Samburskaya, T. Yu. Golubeva, V. A. Averchenko, and Yu. M. Golubev. Quadrature Squeezing in an Isolated Pulse of Light. Optics and Spectroscopy, 113 (1), 86–95 (2012)].
К. С. Самбурская, Т. Ю. Голубева, В. А. Аверченко, Ю. М. Голубев. Квадратурное сжатие в изолированном импульсе света. Оптика и спектроскопия, 113 (1), 88-98 (2012) [K. S. Samburskaya, T. Yu. Golubeva, V. A. Averchenko, and Yu. M. Golubev. Quadrature Squeezing in an Isolated Pulse of Light. Optics and Spectroscopy, 113 (1), 86–95 (2012)].
2011
К. Самбурская, Т. Голубева, Ю. Голубев. E.Giacobino, Квантовая голография при резонансном адиабатическом взаимодействии полей с атомной средой в Lambda-конфигурации. Опт. и Спектр. 110 (5), 827 (2011) [K. Samburskaya, T. Golubeva, Yu. Golubev, and E. Giacobino. Quantum Holography upon Resonant Adiabatic Interaction of Fields with an Atomic Medium in a Lambda-Configuration. Opt. Spectr. 110 (5), 775 (2011)].
T. Golubeva, Yu. Golubev, O. Mishina, A. Bramati, J. Laurat, E. Giacobino. High speed spatially multimode atomic memory. Phys.Rev. A, 83 (5), 053810 (2011).
T. Golubeva, Yu. Golubev, O. Mishina, A. Bramati, J. Laurat, E. Giacobino. High speed spatially multimode atomic memory. Phys.Rev. A, 83 (5), 053810 (2011).
2010
Yu. Golubev, T. Golubeva and K. Samburskaya. Multi-pixel Sources of Entangled Light in the Correlation Measurements Without Homodyne Detection, in book “Quantum cryptography and computing”, Edited by R. Horodecki et. al. IOS Press, pp. 179-194 (2010).
T. Golubeva, Yu. Golubev, K. Samburskaya, C. Fabre, N. Treps, M. Kolobov. Entanglement measurement of the quadrature components without the homodyne detection in the spatially multi-mode far-field. Phys. Rev. A, 81 (1), 013831 (2010).
T. Golubeva, Yu. Golubev, K. Samburskaya, C. Fabre, N. Treps, M. Kolobov. Entanglement measurement of the quadrature components without the homodyne detection in the spatially multi-mode far-field. Phys. Rev. A, 81 (1), 013831 (2010).
2009
Y.M. Golubev, T.Y. Golubeva, A.A. Gavrikov, C. Fabre "Pure and mixed stats in degenerate parametric oscillation", Opt. Spectr., 106 (5), 723 (2009) [Ю.М. Голубев, Т.Ю. Голубева, А.А. Гавриков, C. Fabre "Чистые и смешанные состояния в вырожденной параметрической генерации", Опт. Спектр., 106 (5), 803 (2009)].
2008
В.Аверченко, Т.Голубева, Ю.Голубев, К.Фабр, Широкополосное излучение вырожденного параметрического генератора света над порогом генерации в информационных приложениях, Опт. и Спектр., 105 (5), 831-843 (2008) [V.A. Averchenko, T.Yu. Golubeva, Yu.M. Golubev, C. Fabre. Broadband Radiation of a Degenerate Optical Parametric Oscillator Operating above Threshold in Information Applications. Opt. Spectr., 105 (5), 758-770 (2008).].
T. Golubeva, Yu. Golubev, C. Fabre, N. Treps. Quantum state of an injected TROPO above threshold: purity, Glauber function and photon number distribution. Eur. Phys. J. D, 46, 179 (2008).
T. Golubeva, D. Ivanov, and Yu. Golubev. Broadband squeezed light from phase-locked single-mode sub-Poissonian lasers. Phys. Rev. A, 77, 052316 (2008).
T. Golubeva, Yu. Golubev, C. Fabre, N. Treps. Quantum state of an injected TROPO above threshold: purity, Glauber function and photon number distribution. Eur. Phys. J. D, 46, 179 (2008).
T. Golubeva, D. Ivanov, and Yu. Golubev. Broadband squeezed light from phase-locked single-mode sub-Poissonian lasers. Phys. Rev. A, 77, 052316 (2008).
2007
Yu. M. Golubev, T. Yu Golubeva, Yu V. Rostovtsev and M. O. Scully. Control of group velocity of light via magnetic field. Optics Communications, 278 (2), 350-362 (2007).
T. Golubeva, Yu. Golubev, D. Ivanov. Induced photon statistics in three-level lasers. Phys. Rev. A. 75, 023815, (2007).
T. Golubeva, Yu. Golubev, D. Ivanov. Induced photon statistics in three-level lasers. Phys. Rev. A. 75, 023815, (2007).
2006
Ю.М. Голубев, Т.Ю. Голубева. О статистике фотонов лазерного излучения в цепи обратной связи. Сборник трудов Лазерного Центра, 2006 [Yu.M. Golubev, T.Yu. Golubeva. About the photon statistics of the laser radiation with feedback loop, in book "Laser Investigations in Saint Petersburg State University", St.-Petersburg (2006) (in Russian)].
Yu.M. Golubev, T.Yu. Golubeva, M.I. Kolobov and I.V. Sokolov. Quantum parallel dense coding of optical images. Journal of Modern Optics: Special issue on Quantum Imaging, 53 (5-6), 699-711 (2006). arXiv: quant-ph/0501068 [quant-ph].
Yu.M. Golubev, T.Yu. Golubeva, M.I. Kolobov and I.V. Sokolov. Quantum parallel dense coding of optical images. Journal of Modern Optics: Special issue on Quantum Imaging, 53 (5-6), 699-711 (2006). arXiv: quant-ph/0501068 [quant-ph].
2004
Т.Ю. Голубева, Ю.М. Голубев. Еще раз о проблеме лазера в цепи отрицательной обратной связи: источник квантового или классического света?, представленно в ЖЭТФ.
Yu.M. Golubev, T.Yu.Golubeva (Zernova), M.I.Kolobov, E. Giacobino. Polarization squeezing in vertical-cavity surface-emitting lasers.
Phys. Rev. A, 70 (5), 053817, (2004). arXiv: quant-ph/0407006 [quant-ph]
Yu.M. Golubev, T.Yu. Golubeva, E. Giacobino. Polarization statistical properties of the emission from the single mode vertical-cavity surface-emitting lasers with the equally living laser levels. J. Opt. B: Quantum Semiclass. Opt., 6, 525-532 (2004).
Yu.M. Golubev, T.Yu.Golubeva (Zernova), M.I.Kolobov, E. Giacobino. Polarization squeezing in vertical-cavity surface-emitting lasers.
Phys. Rev. A, 70 (5), 053817, (2004). arXiv: quant-ph/0407006 [quant-ph]
Yu.M. Golubev, T.Yu. Golubeva, E. Giacobino. Polarization statistical properties of the emission from the single mode vertical-cavity surface-emitting lasers with the equally living laser levels. J. Opt. B: Quantum Semiclass. Opt., 6, 525-532 (2004).
2003
Ю.М. Голубев, Т.Ю. Зернова (Голубева), Е. Джиакобино. Неустойчивость линейно поляризованных режимов генерации одномодового виксела. Оптика и спектр., 94 (1), 81-89 (2003) [Yu. M. Golubev, T. Yu. Zernova, E. Giacobino. Instability of linearly polarized lasing modes of a single-mode VCSEL. Optics and Spectroscopy, 94 (1), 75-82 (2003)].
2002
V.V. Voitylov, T.Yu. Zernova, A.A. Spartakov, A.A. Trusov, A.V. Vojtylov. Determination of distribution of colloidal particles on their parameters in electro-optical investigation. Colloids and Surfaces A (Oxford, UK), 209, 123-129 (2002).
V.V. Voitylov, T.Yu. Zernova, A.A. Trusov. Electrooptic and Coductometric Effects in Colloids and Suspensions in Sinusoidally Amplitude Modulated Sine-Shaped Electric Fields. Colloids and Surfaces A (Oxford, UK), 201, 31-40 (2002).
V.V. Voitylov, T.Yu. Zernova, A.A. Trusov. Electrooptic and Coductometric Effects in Colloids and Suspensions in Sinusoidally Amplitude Modulated Sine-Shaped Electric Fields. Colloids and Surfaces A (Oxford, UK), 201, 31-40 (2002).
2001
В.В. Войтылов, Т.Ю. Зернова, А.А. Трусов. Изучение корреляции размеров и электрических поляризуемостей частиц в коллоидах методами электрооптики. Оптика и Спектроскопия, 91 (4), 671 (2001).
В.В. Войтылов, Т.Ю. Зернова, А.А. Трусов. Экспериментальное исследование полидисперсности водного коллоида палыгорскита, суспензий E.COLI и PS. FLUORESCENS электрооптическим методом. Коллоид. журн., 63 (1), (2001).
В.В. Войтылов, Т.Ю. Зернова, А.А. Трусов. Экспериментальное исследование полидисперсности водного коллоида палыгорскита, суспензий E.COLI и PS. FLUORESCENS электрооптическим методом. Коллоид. журн., 63 (1), (2001).
1997
В.В. Войтылов, Т.Ю. Зернова, Е.В. Рудакова, А.А. Спартаков, А.А. Трусов. Электрооптические методы определения формы дисперсных частиц. Оптика и спектроскопия, 82 (3), (1997).
В.В. Войтылов, Т.Ю. Зернова, А.А. Трусов. Определение формы коллоидных частиц электрооптическими методами. Коллоид. журн., 59 (2), (1997).
В.В. Войтылов, Т.Ю. Зернова, А.А. Трусов. Определение формы коллоидных частиц электрооптическими методами. Коллоид. журн., 59 (2), (1997).
1996
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