M. N. Toropov, A. A. Akhsakhalyan, M. V. Zorina, N. N. Salashchenko, N. I. Chkhalo, Yu. M. Tokunov, “Obtaining of smooth high-precision surfaces by the mechanical lapping method”, Zhurnal Tekhnicheskoi Fiziki, 90:11 (2020), 1958–1964; Tech. Phys., 65:11 (2020), 1873

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Zhurnal Tekhnicheskoi Fiziki, 2020, Volume 90, Issue 11, Pages 1958–1964
DOI: https://doi.org/10.21883/JTF.2020.11.49990.127-20 (Mi jtf5168)

This article is cited in 9 scientific papers (total in 9 papers)

XXIV International Symposium Nanophysics and Nanoelectronics, Nizhny Novgorod, March 10--13, 2020
Experimental instruments and technique

Obtaining of smooth high-precision surfaces by the mechanical lapping method

M. N. Toropov^a, A. A. Akhsakhalyan^a, M. V. Zorina^a, N. N. Salashchenko^a, N. I. Chkhalo^a, Yu. M. Tokunov^b

^a Institute for Physics of Microstructures, Russian Academy of Sciences, Nizhnii Novgorod
^b Moscow Institute of Physics and Technology (National Research University), Dolgoprudny, Moscow Region

Full-text PDF (2774 kB) Citations (9)

DOI: https://doi.org/10.21883/JTF.2020.11.49990.127-20

Abstract: We describe in detail a method for obtaining high-precision smooth spherical substrates using mechanical lapping and metrology used for these purposes. We consider a modified version of a two-probe interferometer with a diffraction reference wave, which ensures leveling of the intensities of the arms of the interferometer and rearrangement of the working aperture without instrument resetting. We report on the experimental results obtained during lapping of a concave spherical fused silica substrate using this technique with numerical aperture NA = 0.30, which has been prepared by traditional deep grinding–polishing. The initial characteristics of the substrate are the root-mean-square shape error of 36 nm (

\sim λ

$\sim\lambda$ /20) and effective roughness

σ_{eff}

$\sigma_{\operatorname{eff}}$ = 1.1 nm in the spatial frequency range of 0.025–65

μ

$\mu$ m

^{- 1}

$^{-1}$ . After substrate lapping, the surface parameters were improved to a root-mean-square error of 3.3 nm (

\sim λ

$\sim\lambda$ /200) and

σ_{eff}

$\sigma_{\operatorname{eff}}$ = 0.26 nm. We have analyzed the effect of the grain size in suspension on the roughness and shape of the substrate.

Funding agency	Grant number
Ministry of Education and Science of the Russian Federation	075-02-2018-182
This study was performed on the equipment of the Center for Collective Use of the Institute for Physics of Microstructures, Russian Academy of Sciences, and was supported by the Ministry of Education and Science of the Russian Federation under contract no. 075-02-2018-182 (RFMEFI60418X0202).

Received: 12.04.2020
Revised: 12.04.2020
Accepted: 12.04.2020

English version:
Technical Physics, 2020, Volume 65, Issue 11, Pages 1873–1879
DOI: https://doi.org/10.1134/S1063784220110262

Bibliographic databases:

Document Type: Article

Language: Russian

Citation: M. N. Toropov, A. A. Akhsakhalyan, M. V. Zorina, N. N. Salashchenko, N. I. Chkhalo, Yu. M. Tokunov, “Obtaining of smooth high-precision surfaces by the mechanical lapping method”, Zhurnal Tekhnicheskoi Fiziki, 90:11 (2020), 1958–1964; Tech. Phys., 65:11 (2020), 1873–1879

Citation in format AMSBIB

\Bibitem{TorAkhZor20}

\by M.~N.~Toropov, A.~A.~Akhsakhalyan, M.~V.~Zorina, N.~N.~Salashchenko, N.~I.~Chkhalo, Yu.~M.~Tokunov

\paper Obtaining of smooth high-precision surfaces by the mechanical lapping method

\jour Zhurnal Tekhnicheskoi Fiziki

\yr 2020

\vol 90

\issue 11

\pages 1958--1964

\mathnet{http://mi.mathnet.ru/jtf5168}

\crossref{https://doi.org/10.21883/JTF.2020.11.49990.127-20}

\elib{https://elibrary.ru/item.asp?id=44588729}

\transl

\jour Tech. Phys.

\yr 2020

\vol 65

\issue 11

\pages 1873--1879

\crossref{https://doi.org/10.1134/S1063784220110262}

Linking options:

https://www.mathnet.ru/eng/jtf5168

https://www.mathnet.ru/eng/jtf/v90/i11/p1958

This publication is cited in the following 9 articles:

Yangqin Yu, Zhiyue Wang, Shaozhi Zhang, Xinquan Zhang, Mingjun Ren, Limin Zhu, “Partly random surface micro textures acquired by continuously varying stepover cutting to suppress the diffraction effect”, Journal of Manufacturing Processes, 141 (2025), 1354
N. I. Chkhalo, A. A. Akhsakhalyan, M. V. Zorina, M. N. Toropov, Yu. M. Tokunov, “Method for Obtaining Atomically Smooth Substrates from Single-Crystal Silicon by Mechanical Lapping”, Tech. Phys., 69:4 (2024), 812
M. N. Toropov, A. A. Akhsakhalyan, I. V. Malyshev, M. S. Mikhaylenko, A. E. Pestov, N. N. Salaschenko, A. K. Chernyshov, N. I. Chkhalo, “Wavefront Lens Corrector for Studying Flat Surfaces”, Tech. Phys., 69:3 (2024), 730
M. V. Zorina, M. S. Mikhailenko, A. E. Pestov, M. N. Toropov, A. K. Chernyshev, N. I. Chkhalo, S. K. Gordeev, V. V. Vitkin, “Diamond–Carbide–Silicon Composite “Skeleton” as a Promising Material for X-Ray Optical Substrates”, Tech. Phys., 69:3 (2024), 780
N. I. Chkhalo, “New Concept for the Development of High-Performance X-ray Lithography”, Russ Microelectron, 53:5 (2024), 397
N. I. Chkhalo, N. N. Salashchenko, “Current State and Prospects for the Development of X-Ray Lithography”, J. Surf. Investig., 17:1 (2023), 307
V. V. Lider, “Grazing-Incidence Focusing Optics for X-Ray Telescopes (Review)”, Instrum Exp Tech, 65:2 (2022), 191
Aleksei Chernyshev, Nikolay Chkhalo, Ilya Malyshev, Mikhail Mikhailenko, Alexey Pestov, Nikolay Salashchenko, Mikhail Toropov, “Axisymmetric surface shape correction of optical elements by a wide-aperture ion beam”, Appl. Opt., 61:33 (2022), 9879
Aleksei Chernyshev, Nikolay Chkhalo, Ilya Malyshev, Mikhail Mikhailenko, Alexey Pestov, Roman Pleshkov, Ruslan Smertin, Mikhail Svechnikov, Mikhail Toropov, “Matrix based algorithm for ion-beam figuring of optical elements”, Precision Engineering, 69 (2021), 29

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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