M
Mihail Petrov
Researcher at Saint Petersburg State University of Information Technologies, Mechanics and Optics
Publications - 176
Citations - 2429
Mihail Petrov is an academic researcher from Saint Petersburg State University of Information Technologies, Mechanics and Optics. The author has contributed to research in topics: Plasmon & Dielectric. The author has an hindex of 24, co-authored 166 publications receiving 1854 citations. Previous affiliations of Mihail Petrov include Saint Petersburg Academic University & Russian Academy of Sciences.
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Journal ArticleDOI
Efficient Second-Harmonic Generation in Nanocrystalline Silicon Nanoparticles
Sergey V. Makarov,Mihail Petrov,Urs Zywietz,Valentin A. Milichko,Dmitry Zuev,Natalia Lopanitsyna,Natalia Lopanitsyna,Alexey Kuksin,Alexey Kuksin,Ivan Mukhin,George Zograf,Evgeniy Ubyivovk,Daria A. Smirnova,Sergey Starikov,Sergey Starikov,Boris N. Chichkov,Yuri S. Kivshar,Yuri S. Kivshar +17 more
TL;DR: It is demonstrated, both experimentally and theoretically, that resonantly excited nanocrystalline silicon nanoparticles fabricated by an optimized laser printing technique can exhibit strong second-harmonic generation (SHG) effects.
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Multipolar origin of bound states in the continuum
Z. F. Sadrieva,Kristina Frizyuk,Mihail Petrov,Yuri S. Kivshar,Yuri S. Kivshar,Andrey Bogdanov +5 more
TL;DR: In this article, the authors proposed an approach to explain the physics of bound photonic states embedded in the radiation continuum, and provided a method for designing high-quality resonant photonic systems based on the physical mechanism of formation of such nonradiating states in terms of multipolar modes generated by isolated meta-atoms.
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Quantum Dot Emission Driven by Mie Resonances in Silicon Nanostructures
Viktoriia Rutckaia,Frank Heyroth,A. V. Novikov,Mikhail Shaleev,Mihail Petrov,Mihail Petrov,Joerg Schilling +6 more
TL;DR: An active photonic system based on Ge(Si) quantum dots coupled to silicon nanodisks is described and it is shown that Mie resonances govern the enhancement of the photoluminescent signal from embedded quantum dots due to a good spatial overlap of the emitter position with the electric field of Mie modes.
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Resonant Nonplasmonic Nanoparticles for Efficient Temperature-Feedback Optical Heating
George Zograf,Mihail Petrov,Mihail Petrov,Dmitry Zuev,Pavel A. Dmitriev,Valentin A. Milichko,Sergey V. Makarov,Pavel A. Belov +7 more
TL;DR: The authors' CMOS-compatible heater-thermometer nanoplatform paves the way to novel nonplasmonic photothermal applications, extending the temperature range and simplifying the thermoimaging procedure.
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Plasmonic and silicon spherical nanoparticle antireflective coatings.
Kseniia V. Baryshnikova,Mihail Petrov,Mihail Petrov,Viktoriia E. Babicheva,Viktoriia E. Babicheva,Pavel A. Belov +5 more
TL;DR: The authors' simulation results for spherical nanoparticles array on top of amorphous silicon show that both silicon and silver coatings demonstrate strong antireflective properties in the visible spectral range, and for the first time, it is shown that zero reflectance from the structure with silicon coatings originates from the destructive interference of electric- and magnetic-dipole responses of nanoparticle array.