Bimorph vs stacked actuator deformable mirror for laser beam focusing through a moderately scattering medium

被引：3

作者：

Galaktionov, Ilya ^{[1
]}

Sheldakova, Julia ^{[1
]}

Toporovsky, Vladimir ^{[1
,2
]}

Samarkin, Vadim ^{[1
]}

Kudryashov, Alexis ^{[1
,2
]}

机构：

[1] Inst Geosphere Dynam IDG RAS, Leninskiy Ave 38,Bld 1, Moscow 119334, Russia

[2] Moscow Polytech, Bolshaya Semenovskaya Str 38, Moscow 107023, Russia

来源：

LASER RESONATORS, MICRORESONATORS, AND BEAM CONTROL XXIII | 2021年 / 11672卷

基金：

俄罗斯科学基金会;

关键词：

scattering medium; laser beam focusing; Shack-Hartmann sensor; bimorph mirror;

D O I：

10.1117/12.2577604

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

Bimorph and stacked actuator deformable mirrors were used to increase the efficiency of focusing of partially coherent laser radiation, propagated through the scattering suspension that was equivalent to the middle-density fog layer with the length ranging from 300-500 meters up to 5 kilometers. We used Shack-Hartmann sensor to measure the averaged wavefront distortions and CCD camera to estimate the intensity distribution of the focal spot in the far-field. Numerical and experimental investigations of focusing improvement demonstrated that it is possible to increase the peak intensity of the focal spot by more than 60 %.

引用

页数：5

共 48 条

[1] Laser beam focusing through a moderately scattering medium using a bimorph mirror
Galaktionov, Ilya
Sheldakova, Julia
Nikitin, Alexander
Samarkin, Vadim
Parfenov, Vadim
Kudryashov, Alexis
OPTICS EXPRESS, 2020, 28 (25) : 38061 - 38075
[2] Laser beam focusing through the scattering medium using bimorph deformable mirror and spatial light modulator
Galaktionov, Ilya
Kudryashov, Alexis
Sheldakova, Julia
Nikitin, Alexander
UNCONVENTIONAL AND INDIRECT IMAGING, IMAGE RECONSTRUCTION, AND WAVEFRONT SENSING 2019, 2019, 11135
[3] Comparison of efficiency of bimorph mirror and spatial light modulator for laser beam focusing through a moderately scattering medium
Galaktionov, Ilya
Sheldakova, Julia
Nikitin, Alexander
Kudryashov, Alexis
26TH INTERNATIONAL SYMPOSIUM ON ATMOSPHERIC AND OCEAN OPTICS, ATMOSPHERIC PHYSICS, 2020, 11560
[4] Focusing laser beam through pinhole using stacked-actuator deformable mirror
Nikitin, Alexander
Galaktionov, Ilya
Sheldakova, Julia
Kudryashov, Alexis
Samarkin, Vadim
Rukosuev, Alexey
Toporovsky, Vladimir
LASER RESONATORS, MICRORESONATORS, AND BEAM CONTROL XXII, 2020, 11266
[5] Stacked-actuators deformable mirror vs bimorph mirror for laser beam shaping
Sheldakova, Julia
Galaktionov, Ilya
Nikitin, Alexander
Rukosuev, Alexey
Toporovsky, Vladimir
Kudryashov, Alexis
Samarkin, Vadim
LASER RESONATORS, MICRORESONATORS, AND BEAM CONTROL XXI, 2019, 10904
[6] Focusing laser beam through pinhole using bimorph deformable mirror
Romanov, Pavel
Nikitin, Alexander
Kudryashov, Alexis
Samarkin, Vadim
Sheldakova, Julia
Rukosuev, Alexey
Galaktionov, Ilya
2019 IEEE 8TH INTERNATIONAL CONFERENCE ON ADVANCED OPTOELECTRONICS AND LASERS (CAOL), 2019, : 179 - 183
[7] Focusing laser beam through pinhole using bimorph deformable mirror
Nikitin, Alexander
Galaktionov, Ilya
Sheldakova, Julia
Kudryashov, Alexis
Samarkin, Vadim
Rukosuev, Alexey
LASER RESONATORS, MICRORESONATORS, AND BEAM CONTROL XXI, 2019, 10904
[8] Focusing laser beam through pinhole using high-resolution stacked- actuator deformable mirror
Nikitin, Alexander
Galaktionov, Ilya
Sheldakova, Julia
Kudryashov, Alexis
Samarkin, Vadim
Rukosuev, Alexey
Toporovsky, Vladimir
LASER RESONATORS, MICRORESONATORS, AND BEAM CONTROL XXIII, 2021, 11672
[9] Comparison of stacked actuator and bimorph mirrors for scattered laser beam focusing
Galaktionov, Ilya
Toporovsky, Vladimir
Sheldakova, Julia
Kudryashov, Alexis
LASER BEAM SHAPING XXI, 2021, 11818
[10] Laser beam focusing through the dense multiple scattering suspension using bimorph mirror
Galaktionov, Ilya
Kudryashov, Alexis
Sheldakova, Julia
Nikitin, Alexander
ADAPTIVE OPTICS AND WAVEFRONT CONTROL FOR BIOLOGICAL SYSTEMS V, 2019, 10886

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