O
Oleg V. Minin
Researcher at Tomsk State University
Publications - 200
Citations - 2797
Oleg V. Minin is an academic researcher from Tomsk State University. The author has contributed to research in topics: Dielectric & Photonics. The author has an hindex of 24, co-authored 169 publications receiving 2094 citations. Previous affiliations of Oleg V. Minin include Tomsk Polytechnic University & Novosibirsk State Technical University.
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Refractive index less than two: photonic nanojets yesterday, today and tomorrow [Invited]
TL;DR: In this article, the authors present some of the phenomena and possible applications arising from the interaction of light with particles with a refractive index less than 2, and draw an overview of the possible applications of such materials, in connection with field enhancement and super resolution nanoscopy.
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Photonic hook: a new curved light beam
TL;DR: The photonic hook as discussed by the authors is a curved high-intensity focus by a dielectric trapezoid particle illuminated by a plane wave, which bends due to the difference between the phase velocity and the interference of the waves inside the particle.
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Localized EM and photonic jets from non-spherical and non-symmetrical dielectric mesoscale objects: Brief review
TL;DR: In this paper, a review of the state-of-the-art principles of photonic jet formation by non-spherical and non-symmetrical dielectric mesoscale particles both in transmitting and reflection mode is presented.
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‘Photonic Hook’ based optomechanical nanoparticle manipulator
Angeleene S. Ang,Angeleene S. Ang,Alina Karabchevsky,Igor V. Minin,Oleg V. Minin,Sergey Sukhov,Sergey Sukhov,Alexander S. Shalin +7 more
TL;DR: It is shown, that despite the obstacles, perturbing the field distribution, a particle can move around glass obstacles of a certain thickness and will be trapped stably near it for larger glass slabs.
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Enhancement of spatial resolution of terahertz imaging systems based on terajet generation by dielectric cube
TL;DR: In this article, a mesoscale dielectric cube can be exploited as a novel resolution enhancer by simply placing it at the focused imaging point of a continuous wave THz imaging system.