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个人简介
Dr. Oleg Mitrofanov established the Ultrafast Laser Laboratory in the Department of Electronic and Electrical Engineering. Focused on future ultrafast technologies and underlying science, the Ultrafast Laser Laboratory is conducting experimental research on the femtosecond and picosecond time scales. Probing and controlling physical processes at such speeds became possible with the development of lasers producing very short optical pulses. This technology allowed detection of ultrafast phenomena such as atomic vibrations in crystals and molecular rotations in gases.
Research scope of the Laboratory includes studies of ultrafast processes in materials and electronic devices. Dr. Mitrofanov is actively involved in Terahertz (THz) research with the main focus on development and application of advanced THz characterization tools, such as THz time resolved imaging systems, which allow producing images in THz light with picosecond resolution.
Dr. Mitrofanov made contributions to development of THz near-field microscopy, which allows detection and visualisation of electromagnetic fields on the micron scale. This capability can help advancing development of THz technologies, including THz waveguides, metamaterials and plasmonics devices. Combined with THz spectroscopic analysis this technique also provides a unique opportunity to investigate fundamental physical processes in condensed matter systems.
Research scope of the Laboratory includes studies of ultrafast processes in materials and electronic devices. Dr. Mitrofanov is actively involved in Terahertz (THz) research with the main focus on development and application of advanced THz characterization tools, such as THz time resolved imaging systems, which allow producing images in THz light with picosecond resolution.
Dr. Mitrofanov made contributions to development of THz near-field microscopy, which allows detection and visualisation of electromagnetic fields on the micron scale. This capability can help advancing development of THz technologies, including THz waveguides, metamaterials and plasmonics devices. Combined with THz spectroscopic analysis this technique also provides a unique opportunity to investigate fundamental physical processes in condensed matter systems.
研究兴趣
论文共 238 篇作者统计合作学者相似作者
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引用21浏览0引用
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2023 Conference on Lasers and Electro-Optics (CLEO)pp.1-2, (2023)
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APL Photonicsno. 5 (2023)
引用2浏览0引用
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2022 47th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz)pp.1-2, (2022)
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Conference on Lasers and Electro-Opticspp.1-2, (2022)
ACS Photonicsno. 7 (2022): 2536-2536
2022 47TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIMETER AND TERAHERTZ WAVES (IRMMW-THZ 2022)pp.1-2, (2022)
Applied Physics Lettersno. 23 (2022)
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