V
V. Yu. Venediktov
Researcher at Saint Petersburg State University
Publications - 66
Citations - 347
V. Yu. Venediktov is an academic researcher from Saint Petersburg State University. The author has contributed to research in topics: Holography & Interferometry. The author has an hindex of 9, co-authored 49 publications receiving 241 citations. Previous affiliations of V. Yu. Venediktov include Vavilov State Optical Institute & Saint Petersburg State University of Information Technologies, Mechanics and Optics.
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Journal ArticleDOI
Roadmap on holography
John T. Sheridan,Raymond K. Kostuk,Antonio Fimia Gil,Yongtian Wang,W. Lu,Haizheng Zhong,Yasuo Tomita,Cristian Neipp,Jorge Francés,Sergi Gallego,Inmaculada Pascual,Vera Marinova,Vera Marinova,Shiuan-Huei Lin,Ken-Yuh Hsu,F. Bruder,S. Hansen,C. Manecke,R. Meisenheimer,C. Rewitz,T. Rölle,Sergey B. Odinokov,Osamu Matoba,Manoj Kumar,Xiangyu Quan,Yasuhiro Awatsuji,Przemyslaw Wachulak,Alina V. Gorelaya,Alexander Sevryugin,Egor V. Shalymov,V. Yu. Venediktov,R. Chmelik,Maria Antonietta Ferrara,Giuseppe Coppola,Andrés Márquez,Augusto Beléndez,Weijian Yang,Rafael Yuste,Rafael Yuste,A. Bianco,Alessio Zanutta,C. Falldorf,John J. Healy,X. Fan,Bryan M. Hennelly,I. Zhurminsky,M. Schnieper,R. Ferrini,S. Fricke,Guohai Situ,Honggeng Wang,A. S. Abdurashitov,A. S. Abdurashitov,V. V. Tuchin,N. V. Petrov,Takanori Nomura,Derek R. Morim,Kalaichelvi Saravanamuttu +57 more
TL;DR: John T Sheridan, Raymond K Kostuk2, Antonio Fimia Gil, Y Wang4, W Lu4, H Zhong4, Y Tomita5, C Neipp6, J Francés6, S Gallego6, I Pascual6, V Marinova7,8, S-H Lin7, K-Y Hsu7, F Bruder9, S Hansen9, C Manecke9, R Meisenheimer
Journal ArticleDOI
Passive ring resonator micro-optical gyroscopes
TL;DR: In this paper, a review of recent advances in passive micro-optical gyroscopes is presented, focusing on a configuration that takes advantage of a singlemode passive ring resonator, which is usually fabricated using integrated optical technologies.
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Vortex beams with zero orbital angular momentum and non-zero topological charge
TL;DR: In this article, the field structure of the vortex beam generated via coherent fiber-array where beamlets are arranged along a circle was studied and it was shown that the central part of the far field corresponds to an optical vortex with the orbital angular momentum and the topological charge equal to l (l is integer).
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Probability distribution of intensity fluctuations of arbitrary-type laser beams in the turbulent atmosphere
TL;DR: In this paper, the authors analyzed the statistical characteristics of radiation intensity in the cross section of laser beams propagating in the turbulent atmosphere by using numerical simulations and showed that for arbitrary values of the propagation distance, Rytov parameter, beam type, and position of the analyzed point in the beam cross section, the probability density function (PDF) is fully determined by the scintillation index and the average intensity.
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Liquid crystals in dynamic holography (review)
TL;DR: In this article, basic schemes and methods of recording of holographic gratings in liquid crystals, compositions, and devices on their basis are reviewed, and various photochemical and electrooptical mechanisms of this recording are discussed.