$Shack-Hartmann sensor based on a low-aperture off-axis diffraction lens array$
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Shack-Hartmann sensor based on a low-aperture off-axis diffraction lens array

A Shack-Hartmann type wavefront sensor designed on the basis of a low-aperture off-axis diffraction lens array is described. Tests experiments showed that the sensor is capable of measuring wavefront slopes at array subapertures of size 640×640 µm with an error not exceeding 4.80 arcseconds (0.15 pi...

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Published in:	Optoelectronics, instrumentation, and data processing Vol. 45; no. 2; pp. 161 - 170
Main Authors:	Lukin, V. P., Botygina, N. N., Emaleev, O. N., Korol’kov, V. P., Lavrinova, L. N., Nasyrov, R. K., Poleshchuk, A. G., Cherkashin, V. V.
Format:	Journal Article
Language:	English
Published:	Heidelberg Allerton Press, Inc 01-04-2009
Subjects:	Lasers Optical Devices Optical Information Technologies Optics Photonics Physics Physics and Astronomy low-aperture off-axis diffraction lens array adaptive optics atmospheric turbulence Shack-Hartmann sensor
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Abstract	A Shack-Hartmann type wavefront sensor designed on the basis of a low-aperture off-axis diffraction lens array is described. Tests experiments showed that the sensor is capable of measuring wavefront slopes at array subapertures of size 640×640 µm with an error not exceeding 4.80 arcseconds (0.15 pixel), which corresponds to the standard deviation (SD) (SD = 0.0170λ) at the reconstructed wavefront. Advantages of the array used in the sensor and the technology of its manufacture are discussed. The sensor tested in the experiments can be used to measure atmospheric turbulence parameters and as an element of adaptive optical imaging systems.
AbstractList	A Shack-Hartmann type wavefront sensor designed on the basis of a low-aperture off-axis diffraction lens array is described. Tests experiments showed that the sensor is capable of measuring wavefront slopes at array subapertures of size 640×640 µm with an error not exceeding 4.80 arcseconds (0.15 pixel), which corresponds to the standard deviation (SD) (SD = 0.0170λ) at the reconstructed wavefront. Advantages of the array used in the sensor and the technology of its manufacture are discussed. The sensor tested in the experiments can be used to measure atmospheric turbulence parameters and as an element of adaptive optical imaging systems.
Author	Poleshchuk, A. G. Nasyrov, R. K. Emaleev, O. N. Korol’kov, V. P. Cherkashin, V. V. Botygina, N. N. Lavrinova, L. N. Lukin, V. P.
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Keywords	low-aperture off-axis diffraction lens array adaptive optics atmospheric turbulence Shack-Hartmann sensor
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References	ZuevV. E.BanakhV. A.PokasovV. V.Optics of Turbulent Atmosphere1988LeningradGidrometeoizdat VitrichenkoE. A.Methods of Studying Astronomical Optics1980MoscowNauka LukinV. P.Atmospheric Adaptive Optics1986NovosibirskNauka TaranenkoV. G.ShininO. I.Adaptive Optics in Devices and Facilities2005MoscowTsNIIATOMINFORM GurvichA. S.KonA. I.MironovV. L.KhmelevtsovS. S.Laser Radiation in the Turbulent Atmosphere1976MoscowNauka KanevF.LukinV.MakenovaN.Limitations of adaptive control efficiency due to singular points in the wavefront of a laser beamProc. SPIE2003488426527210.1117/12.4624252003SPIE.4884..265K KorolkovV. P.PoleshchukA. G.NasyrovR. K.Application of Off-Axis Microlens Array in Low Aperture Shack-Hartmann SensorProc. 4 Int. Forum EXPO-Holography2007MoscowHolographiya-Servis150153 KanevF.LukinV.MakenovaN.Recording the Phase Profile of Coherent Radiation and Adaptive Control by a Laser Beam in the Presence of Singular Points at the WavefrontOpt. Atmos. Okeana2002151110181026 A. S. Gurvich (2010_CR2) 1976 F. Kanev (2010_CR7) 2003; 4884 V. G. Taranenko (2010_CR5) 2005 E. A. Vitrichenko (2010_CR1) 1980 V. P. Korolkov (2010_CR6) 2007 F. Kanev (2010_CR8) 2002; 15 V. E. Zuev (2010_CR4) 1988 V. P. Lukin (2010_CR3) 1986
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SubjectTerms	Lasers Optical Devices Optical Information Technologies Optics Photonics Physics Physics and Astronomy
Title	Shack-Hartmann sensor based on a low-aperture off-axis diffraction lens array
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