Alexis Kudryashov
MAMI Moscow State Technical University
277 Papers
1.2K Citations
Alexis Kudryashov is an academic researcher from MAMI Moscow State Technical University. The author has contributed to research in topics: Adaptive optics & Deformable mirror. The author has an hindex of 26, co-authored 249 publications. Previous affiliations of Alexis Kudryashov include Air Force Research Laboratory & Russian Academy of Sciences.
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Papers
Bimorph deformable mirrors for high-order aberrations simulation
Vladimir Toporovsky,Alexis Kudryashov,Vadim Samarkin,Julia Sheldakova,Alexey Rukosuev,Arkadiy A. Skvortsov,Danila E. Pshonkin +6 more
- 09 Sep 2019
TL;DR: In this paper, the authors suggest the new design and technology of production of a small size bimorph mirrors to be used to correct for atmospheric phase fluctuations, which has the diameter of 30 mm and 37 control electrodes.
•Proceedings Article
Wavefront correction of a 100 TW high-peak-power, ultrashort laser pulse
Yutaka Akahane,Makoto Aoyama,Hiromitsu Kiriyama,Y. Fukuda,N. Inoue,H. Ueda,K. Tsuji,Y. Nakai,Y. Yamamoto,Koichi Yamakawa,Y.V. Sheldakova,Alexis Kudryashov +11 more
- 16 May 2004
TL;DR: Adaptive optics is installed and demonstrated in JAERI 100 TW laser system to achieve over 10/sup 20/ W/cm/sup 2/ peak intensity at the focal spot.
New generation of the miniature bimorph mirrors for compensation of the wavefront distortions
Vladimir Toporovsky,Alexis Kudryashov,Vadim Samarkin,Julia Sheldakova,Alexey Rukosuev,Arkadiy A. Skvortsov,Danila E. Pshonkin +6 more
- 04 Mar 2019
TL;DR: In this paper, a deformable bimorph mirror with 37 electrodes was developed and two technologies were used to manufacture this type of mirrors: laser engraving technology for drawing electrode grid on the piezoceramic disc, and ultrasonic welding technology to connect wires to the control electrodes.
Multimorph mirrors: a new generation of bimorph mirrors
Alexander S. Sobolev,T. Yu. Cherezova,Alexis Kudryashov +2 more
- 27 Dec 2005
TL;DR: In this paper, the authors proposed an algorithm to determine the best electrode grid for the semipassive bimorph flexible mirror to reproduce a specified phase profile, which demonstrates the ability to decrease the number of control channels and simultaneously to improve quality of the given wavefront formation.
High intensity laser beam wavefront diagnostics and correction at the Advanced Laser Light Source facility
A. Alexandrov,Sylvain Fourmaux,J. C. Kieffer,Alexis Kudryashov,François Martin,Tsuneyuki Ozaki,S. Payeur +6 more
- 11 Nov 2010
TL;DR: The Advanced Laser Light Source (ALLS) as discussed by the authors is a Canadian facility consisting of several high intensity laser systems based on Ti:Sapphire technology, which deliver 25-35 fs laser pulse time duration, from 1 mJ up to 5 J energy per pulse, high repetition rate from 10 Hz to 5 kHz, and up to 200 TW of instantaneous power or 50 W of average power.