Roman Ozhegov
- Associate Professor:HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE) / Quantum Optics and Telecommunications Joint Department with Skontel
- Roman Ozhegov has been at HSE University since 2017.
Education and Degrees
- 2011
Candidate of Sciences* (PhD) in Radiophysics
- 2002
Degree in Physics
Vyatka State University of Humanities
According to the International Standard Classification of Education (ISCED) 2011, Candidate of Sciences belongs to ISCED level 8 - "doctoral or equivalent", together with PhD, DPhil, D.Lit, D.Sc, LL.D, Doctorate or similar. Candidate of Sciences allows its holders to reach the level of the Associate Professor.
Courses (2022/2023)
- Devices for quantum computing and communication (Bachelor’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 4 year, 2, 3 module)Rus
Labs in quantum photonics and cryptography (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); field of study "11.04.04. Электроника и наноэлектроника", field of study "11.04.04. Электроника и наноэлектроника"; 1 year, 3, 4 module)Rus
- Technological Foundations of Quantum Computing and Quantum Communications (mentor's workshop) (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 2 year, 1-3 module)Rus
- Past Courses
Courses (2021/2022)
Labs in quantum photonics and cryptography (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); field of study "11.04.04. Электроника и наноэлектроника", field of study "11.04.04. Электроника и наноэлектроника"; 1 year, 3, 4 module)Rus
- Quantum Computers and Quantum Communication (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 2 year, 1, 2 module)Rus
- Quantum teleportation and data protection (Minor; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 3, 4 module)Rus
- Technological Foundations of Quantum Computing and Quantum Communications (mentor's workshop) (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 1-4 module)Rus
Courses (2020/2021)
- Laboratory Works (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 4 module)Rus
- Quantum Computers and Quantum Communication (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 2 year, 1, 2 module)Rus
- Research and Design Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 1-4 module)Rus
Courses (2019/2020)
- Laboratory Works (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 4 module)Rus
- Physics (Bachelor’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 2-4 module)Rus
- Research and Design Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 1-4 module)Rus
Courses (2018/2019)
- Laboratory Works (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 3, 4 module)Rus
- Physics (Bachelor’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 2-4 module)Rus
- Research and Design Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 1-4 module)Rus
- Research Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 2 year, 1-3 module)Rus
Courses (2017/2018)
- Applied Physics Research Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 2 year, 1-3 module)Rus
- Laboratory Works (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 3, 4 module)Rus
- Physics (Bachelor’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 1-4 module)Rus
- Research Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE); 1 year, 1-4 module)Rus
Publications31
- Article Aleksei Kuzin, Chernyshev V., Kovalyuk V., An P., Golikov A., Ozhegov R., Gorin D., Gippius N., Gregory Goltsman. Hybrid nanophotonic–microfluidic sensor for highly sensitive liquid and gas analyses // Optics Letters. 2022. Vol. 47. No. 9. P. 2358-2361. doi
- Article Baksheeva K., Ozhegov R., Goltsman G., Kinev N., Koshelets V., Kochnev A., Betzalel N., Puzenko A., Ben Ishai P., Feldman Y. The Sub-THz Emission of the Human Body Under Physiological Stress // IEEE Transactions on Terahertz Science and Technology. 2021. Vol. 11. No. 4. P. 381-388. doi
- Article Elezov M., Roman Ozhegov, Gregory Goltsman, Makarov V. Countermeasure against bright-light attack on superconducting nanowire single-photon detector in quantum key distribution // Optics Express. 2019. Vol. 27. No. 21. P. 30979-30988. doi
- Chapter Baksheeva K., Ozhegov R., Goltsman G., Kinev N., Koshelets V., Kochnev A., Betzalel N., Puzenko A., Ben Ishai P., Feldman Y. Do humans “shine” in the sub THz?, in: 2019 44th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz). IEEE, 2019. P. 1-2. doi
- Article Baksheeva K., Vdovydchenko A., Gorshkov K., Ozhegov R., Kinev N., Koshelets V., Goltsman G. Study of human skin radiation in the terahertz frequency range // Journal of Physics: Conference Series. 2019. Vol. 1410. No. 1. P. 012076. doi
- Chapter K. Baksheeva, Vdovydchenko V., Gorshkov K., R. Ozhegov, Kinev N., Koshelets V., G. Goltsman. Study of human skin radiation in the terahertz frequency range, in: Proceedings of the 6th International School and Conference "Saint-Petersburg OPEN 2019" on Optoelectronics, Photonics, Engineering and Nanostructures. Academic University Publishing, 2019. P. 177-179.
- Chapter Бакшеева К. А., Вдовыдченко А. С., Горшков К. Н., Ожегов Р. В., Кинев Н. В., Кошелец В. П. Терагерцовый метод диагностики психического состояния человека // В кн.: Межвузовская научно-техническая конференция студентов, аспирантов и молодых специалистов им. Е.В. Арменского / Под общ. ред.: Е. А. Крук, С. А. Аксенов, С. М. Авдошин, У. В. Аристова, Г. Г. Бондаренко, Л. С. Восков, А. А. Елизаров, Э. С. Клышинский, А. Б. Лось, Н. С. Титкова. М. : МИЭМ НИУ ВШЭ, 2019. С. 132-132.
- Article Shcherbatenko M., Lobanov Y., Semenov A., Kovalyuk V., Korneev A., Ozhegov R., Kaurova N., Voronov B., Goltsman G. Coherent detection of weak signals with superconducting nanowire single photon detector at the telecommunication wavelength // Proceedings of SPIE. 2017. Vol. 10229. P. 102290G-1-102290G-12. doi
- Chapter Shcherbatenko M., Lobanov Y., Semenov A., Kovalyuk V., Korneev A., Ozhegov R., Kaurova N., Voronov B., Goltsman G. Coherent detection of weak signals with superconducting nanowire single photon detector at the telecommunication wavelength, in: Proceedings of SPIE - The International Society for Optical Engineering Vol. 10229. SPIE, 2017. P. 102290G-1-102290G-12. doi
- Article Elezov M., Ozhegov R., Goltsman G., Makarov V. Development of the experimental setup for investigation of latching of superconducting single-photon detector caused by blinding attack on the quantum key distribution system // EPJ Web of Conferences. 2017. Vol. 132. P. 1-2. doi
- Chapter Elezov M., Ozhegov R., Goltsman G., Makarov V. Development of the experimental setup for investigation of latching of superconducting single-photon detector caused by blinding attack on the quantum key distribution system, in: EPJ Web of Conferences. XXV-th Congress on Spectroscopy. Troitsk, Moscow, Russia, October 3-7, 2016 Т. 132. Лез-Юлис : EDP Sciences, 2017. P. 1-2. doi
- Article Kovalyuk V., Ferrari S., Kahl O., Semenov A., Shcherbatenko M., Lobanov Y., Ozhegov R., Korneev A., Kaurova N., Voronov B., Pernice W., Goltsman G. On-chip coherent detection with quantum limited sensitivity // Scientific Reports. 2017. Vol. 7. No. 1. P. 1-9. doi
- Article Lobanov Y., Shcherbatenko M., Semenov A., Kovalyuk V., Kahl O., Ferrari S., Korneev A., Kaurova N., Voronov B., Pernice W. H., Goltsman G., Ozhegov R. Superconducting nanowire single photon detector for coherent detection of weak signals // IEEE Transactions on Applied Superconductivity. 2017. Vol. 27. No. 4. P. 7797465-1-7797465-4. doi
- Article Shcherbatenko M., Lobanov Y., Semenov A., Kovalyuk V., Korneev A., Ozhegov R., Kazakov A., Voronov B., Goltsman G. Potential of a Superconducting Photon Counter for Heterodyne Detection at Telecommunication Wavelength // Optics Express. 2016. Vol. 24. No. 26. P. 30474-30484. doi
- Article Elezov M., Ozhegov R., Kurochkin Y., Goltsman G., Makarov V. Countermeasures Against Blinding Attack on Superconducting Nanowire Detectors for QKD // EPJ Web of Conferences. 2015. Vol. 103. P. 10002-p.1-10002-p.2. doi
- Article Kurochkin V., Zverev A., Kurochkin Y., Ryabtsev I. I., Neizvestnyi I. G., Ozhegov R., Goltsman G., Larionov P. A. Long-Distance Fiber-Optic Quantum Key Distribution Using Superconducting Detectors // Optoelectronics, Instrumentation and Data Processing. 2015. Vol. 51. No. 6. P. 548-552. doi
- Chapter Ozhegov R., Elezov M., Kurochkin Y., Kurochkin V., Divochiy A., Kovalyuk V., Vachtomin Y., Smirnov K., Goltsman G. Quantum key distribution over 300, in: Proceedings of SPIE - The International Society for Optical Engineering (Proceedings of SPIE) Vol. 9440: International Conference on Micro- and Nano-Electronics. Zvenigorod : Society of Photo-Optical Instrumentation Engineers, 2014. P. 94401F-1- 94401F-9. doi
- Book Ozhegov R., Gorshkov K., Vachtomin Y., Smirnov K., Finkel M., Goltsman G., Kiselev O., Kinev N., Filippenko L., Koshelets V. Terahertz Imaging System Based on Superconducting Heterodyne Integrated Receiver.. Springer, 2014. doi
- Article Глейм А., Аснис Л., Вахтомин Ю., Дивочий А., Егоров В., Ковалюк В., Корнеев А., Кынев С., Назаров Ю., Ожегов Р. В., Рупасов А., Смирнов К. В., Смирнов М., Гольцман Г. Н., Козлов С. Квантовая рассылка криптографического ключа по оптическому волокну на расстояние 200 км со скоростью 180 бит/сек // Известия РАН. Серия физическая. 2014. Т. 78. № 3. С. 266-270.
- Book Ожегов Р. В., Горшков К., Окунев О., Гольцман Г. Н., Кошелец В., Филиппенко Л., Кинёв Н. Флуктуационная чувствительность и стабильность приемников с СИС и НЕВ смесителями для терагерцового тепловидения Кн. 978-5-4263-0192-4. М. : МПГУ, 2014.
- Article Pentina I. V., Smirnov K., Ryabchun S., Ozhegov R., Goltsman G., Vaks V. L. Semiconducting Superlattice as a Solid-State Terahertz Local Oscillator for NbN Hot-Electron Bolometer Mixers // Technical Physics. 2012. Vol. 57. No. 7. P. 971-974. doi
- Article Ozhegov R., Gorshkov K., Goltsman G., Kinev N. V., Koshelets V. P. The stability of terahertz receiver based on superconducting integrated receiver // Superconductor Science and Technology. 2011. Vol. 24. No. 3. P. 1-4. doi
- Article Семенов А., Девятов И., Третьяков И., Лобанов Ю., Ожегов Р. В., Петренко Д., Селиверстов С., Финкель М. Вывод уравнения типа уравнения Гинзбурга-Ландау для нанопроволоки вблизи критического магнитного поля // Журнал радиоэлектроники. 2011. № 11
- Article Семенов А., Девятов И., Смирнов К. В., Воронов Б., Ожегов Р. В., Третьяков И., Рябчун С. А., Чулкова Г. М., Петренко Д., Антипов А. Вычисление линейных по мощности поправок к спектральным функциям сверхпроводника и их вклада в отклик сверхпроводниковых детекторов излучения // Журнал радиоэлектроники. 2011. № 11
- Article Кинев Н., Кошелец В., Филипенко Л., Ожегов Р. В., Горшков К., Гольцман Г. Н., Селезнев В. Сверхпроводниковый интегральный приемник со смесителем на эффекте электронного разогрева // Радиотехника. 2011. № 12. С. 25-31.
- Article Ozhegov R., Okunev O., Goltsman G., Filippenko L., Koshelets V. NOISE EQUIVALENT TEMPERATURE DIFFERENCE OF A SUPERCONDUCTING INTEGRATED TERAHERTZ RECEIVER // Journal of Communications Technology and Electronics. 2010. Vol. 5. No. 4. P. 716-720. doi
- Article Смирнов К. В., Вахтомин Ю., Смирнов А., Ожегов Р. В., Пентин И., Дивочий А., Гольцман Г. Н. ПРИЕМНИКИ ТЕРАГЕРЦОВОГО И ИНФРАКРАСНОГО ДИАПАЗОНОВ, ОСНОВАННЫЕ НА ТОНКОПЛЕНОЧНЫХ СВЕРХПРОВОДНИКОВЫХ НАНОСТРУКТУРАХ // Вестник Новосибирского государственного университета. Серия: Физика. 2010. Т. 5. № 4. С. 63-67.
- Article Ожегов Р. В., Горшков К., Окунев О., Гольцман Г. Н. Сверхпроводниковый смеситель на эффекте электронного разогрева как элемент матрицы системы построения тепловых изображений // Письма в Журнал технической физики. 2010. Т. 36. № 21. С. 70-77.
- Article Ожегов Р. В., Окунев О., Гольцман Г. Н. Флуктуационная чувствительность сверхпроводящего болометрического смесителя на эффекте разогрева электронного газа // Радиотехника. 2009. № 3. С. 120-124.
- Article Ожегов Р. В., Окунев О., Гольцман Г. Н., Филиппенко Л., Кошелец В. Флуктуационная чувствительность сверхпроводящего интегрального приемника терагерцового диапазона частот // Радиотехника и электроника. 2009. Т. 54. № 6. С. 750-755.
- Article Ожегов Р. В., Гронский П., Муратова Т. Система сбора данных на микросхемах Analog Devices // Приборы и техника эксперимента. 2008. № 3. С. 177-179.
Conferences
Employment history
2013 – to present: Senior Researcher at Laboratory of quantum detectors of Moscow State Pedagogical University, Moscow, Russia
2010 – to present: Leader of electronics group at JSC “Superconducting nanotechnologies”
2010 – 2013: Senior Researcher, SERC of Moscow State Pedagogical University, Moscow, Russia
2005 – 2010: Researcher, SERC of Moscow State Pedagogical University, Moscow, Russia
2005 – 2010: Expert at JSC “Superconducting nanotechnologies”
2003 - 2005: Ph. D. student, Dept. of Physics, Moscow State Pedagogical University, Moscow, Russia
MIEM Holds ‘Electronics, Photonics and the Internet of Things’ Summer School
Over three days, the participants learnt about the main subject areas of the master's programmes of the HSE School of Electronic Engineering. About three dozen undergraduate students and graduates from different Russian universities took part in the summer school. Leading MIEM teachers and visiting lecturers from Russian companies were among those who spoke about promising areas of development in electronics, photonics, quantum technologies and the Internet of Things (IoT).