Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution

Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution

We present an optical interference system nanoprofiler MNP-1 designed for high-precision noncontact measurement of surface relief with subnanometer resolution (root mean square of measured values), based on partial scanning of interference signal. The paper describes the construction of the measurem...

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Main Authors: Sysoev Evgeny, Kosolobov Sergey, Kulikov Rodion, Latyshev Alexander, Sitnikov Sergey, Vykhristyuk Ignat
Format: Article
Language:English
Published: Sciendo 2017-10-01
Series:Measurement Science Review
Subjects:
nanorelief
monatomic steps
low-coherence
white light interferometer
subnanometer resolution
Online Access:https://doi.org/10.1515/msr-2017-0025
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spelling doaj-eb16457b055b4008a5d114ef392f399b2021-09-06T19:20:28ZengSciendoMeasurement Science Review1335-88712017-10-0117521321810.1515/msr-2017-0025msr-2017-0025Interferometric Surface Relief Measurements with Subnano/Picometer Height ResolutionSysoev Evgeny0Kosolobov Sergey1Kulikov Rodion2Latyshev Alexander3Sitnikov Sergey4Vykhristyuk Ignat5Technological Design Institute of Scientific Instrument Engineering, Siberian Branch of the Russian Academy of Sciences (TDI SIE SB RAS), 41, Russkaya str., 630058, Novosibirsk, Russian FederationA.V. Rzhanov Institute of Semiconductor Physics, Siberian Branch of the Russian Academy of Sciences (ISP SB RAS), 13, Academika Lavrentieva Prospekt, 630090, Novosibirsk, Russian FederationTechnological Design Institute of Scientific Instrument Engineering, Siberian Branch of the Russian Academy of Sciences (TDI SIE SB RAS), 41, Russkaya str., 630058, Novosibirsk, Russian FederationA.V. Rzhanov Institute of Semiconductor Physics, Siberian Branch of the Russian Academy of Sciences (ISP SB RAS), 13, Academika Lavrentieva Prospekt, 630090, Novosibirsk, Russian FederationA.V. Rzhanov Institute of Semiconductor Physics, Siberian Branch of the Russian Academy of Sciences (ISP SB RAS), 13, Academika Lavrentieva Prospekt, 630090, Novosibirsk, Russian FederationTechnological Design Institute of Scientific Instrument Engineering, Siberian Branch of the Russian Academy of Sciences (TDI SIE SB RAS), 41, Russkaya str., 630058, Novosibirsk, Russian FederationWe present an optical interference system nanoprofiler MNP-1 designed for high-precision noncontact measurement of surface relief with subnanometer resolution (root mean square of measured values), based on partial scanning of interference signal. The paper describes the construction of the measurement system with Linnik interferometer and the algorithm for nanorelief surface reconstruction. Experimental measurement results of silicon sample with profile height of surface structure of one interatomic distance obtained by MNP-1 are shown. It was proposed to use an atomically smooth surface as the reference mirror in the interferometer MNP-1 that allowed us to measure monatomic steps of the presented silicon sample. Monatomic steps of 0.31 nm in height on silicon (111) surface were measured with resolution up to 5 pm.https://doi.org/10.1515/msr-2017-0025nanoreliefmonatomic stepslow-coherencewhite light interferometersubnanometer resolution
collection DOAJ
language English
format Article
sources DOAJ
author Sysoev Evgeny
Kosolobov Sergey
Kulikov Rodion
Latyshev Alexander
Sitnikov Sergey
Vykhristyuk Ignat
spellingShingle Sysoev Evgeny
Kosolobov Sergey
Kulikov Rodion
Latyshev Alexander
Sitnikov Sergey
Vykhristyuk Ignat
Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution
Measurement Science Review
nanorelief
monatomic steps
low-coherence
white light interferometer
subnanometer resolution
author_facet Sysoev Evgeny
Kosolobov Sergey
Kulikov Rodion
Latyshev Alexander
Sitnikov Sergey
Vykhristyuk Ignat
author_sort Sysoev Evgeny
title Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution
title_short Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution
title_full Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution
title_fullStr Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution
title_full_unstemmed Interferometric Surface Relief Measurements with Subnano/Picometer Height Resolution
title_sort interferometric surface relief measurements with subnano/picometer height resolution
publisher Sciendo
series Measurement Science Review
issn 1335-8871
publishDate 2017-10-01
description We present an optical interference system nanoprofiler MNP-1 designed for high-precision noncontact measurement of surface relief with subnanometer resolution (root mean square of measured values), based on partial scanning of interference signal. The paper describes the construction of the measurement system with Linnik interferometer and the algorithm for nanorelief surface reconstruction. Experimental measurement results of silicon sample with profile height of surface structure of one interatomic distance obtained by MNP-1 are shown. It was proposed to use an atomically smooth surface as the reference mirror in the interferometer MNP-1 that allowed us to measure monatomic steps of the presented silicon sample. Monatomic steps of 0.31 nm in height on silicon (111) surface were measured with resolution up to 5 pm.
topic nanorelief
monatomic steps
low-coherence
white light interferometer
subnanometer resolution
url https://doi.org/10.1515/msr-2017-0025
work_keys_str_mv AT sysoevevgeny interferometricsurfacereliefmeasurementswithsubnanopicometerheightresolution
AT kosolobovsergey interferometricsurfacereliefmeasurementswithsubnanopicometerheightresolution
AT kulikovrodion interferometricsurfacereliefmeasurementswithsubnanopicometerheightresolution
AT latyshevalexander interferometricsurfacereliefmeasurementswithsubnanopicometerheightresolution
AT sitnikovsergey interferometricsurfacereliefmeasurementswithsubnanopicometerheightresolution
AT vykhristyukignat interferometricsurfacereliefmeasurementswithsubnanopicometerheightresolution
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