Application of Machine Learning to Determine Electron Temperature in Globus-M2 Tokamak Using the Soft X-Ray Emission Data and the Thomson Scattering Diagnostics Data.
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| Title: | Application of Machine Learning to Determine Electron Temperature in Globus-M2 Tokamak Using the Soft X-Ray Emission Data and the Thomson Scattering Diagnostics Data. |
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| Authors: | Tkachenko, E. E.1 (AUTHOR) erina.tkachenko@yandex.ru, Kurskiev, G. S.1 (AUTHOR), Zhiltsov, N. S.1 (AUTHOR), Voronin, A. V.1 (AUTHOR), Goryainov, V. Yu.1 (AUTHOR), Mukhin, E. E.1 (AUTHOR), Tolstyakov, S. Yu.1 (AUTHOR), Varfolomeev, V. I.1 (AUTHOR), Gusev, V. K.1 (AUTHOR), Minaev, V. B.1 (AUTHOR), Novokhatsky, A. N.1 (AUTHOR), Patrov, M. I.1 (AUTHOR), Petrov, Yu. V.1 (AUTHOR), Sakharov, N. V.1 (AUTHOR), Kiselev, E. O.1 (AUTHOR), Shchegolev, P. B.1 (AUTHOR) |
| Source: | Physics of Atomic Nuclei. Dec2022, Vol. 85 Issue 7, p1214-1222. 9p. |
| Subject Terms: | *Thomson scattering, *Electron temperature, *Soft X rays, *Supervised learning, *Tokamaks, *Electron temperature measurement, *Machine learning, *Hard X-rays |
| Abstract: | An important part of high-temperature plasma study is the determination of the electron temperature dynamics in the tokamak plasma. At spherical tokamaks, one can use Thomson scattering diagnostics as well as soft X-ray emission diagnostics (SXR). The capabilities of electron temperature measurement by the first diagnostics are limited by the repetition rate of laser pulses and their number in one tokamak discharge. Data of the second diagnostics are continuous in time and are determined by the time resolution of the detectors; however, obtaining the electron temperature using these data encounters a number of difficulties considered in this study. A method of combined processing of results of these diagnostics using machine learning algorithms was developed for overcoming these difficulties and applying the adVoprosy Atomnoi Nauki i Tekhniki, Seriya: Termoyadernyi Sintezages of both diagnostics. Training data include soft X-ray diagnostic data, hard X-ray diagnostic data, and CIII line emissivity diagnostic data. Thomson local scattering measurements were used as labels for supervised machine learning. The developed technique provides significant extension of the possibilities of determining the electron temperature at the Globus-M2 tokamak. [ABSTRACT FROM AUTHOR] |
| Database: | Energy & Power Source |
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| Header | DbId: enr DbLabel: Energy & Power Source An: 162412238 AccessLevel: 6 PubType: Academic Journal PubTypeId: academicJournal PreciseRelevancyScore: 0 |
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| Items | – Name: Title Label: Title Group: Ti Data: Application of Machine Learning to Determine Electron Temperature in Globus-M2 Tokamak Using the Soft X-Ray Emission Data and the Thomson Scattering Diagnostics Data. – Name: Author Label: Authors Group: Au Data: <searchLink fieldCode="AR" term="%22Tkachenko%2C+E%2E+E%2E%22">Tkachenko, E. E.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<i> erina.tkachenko@yandex.ru</i><br /><searchLink fieldCode="AR" term="%22Kurskiev%2C+G%2E+S%2E%22">Kurskiev, G. S.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Zhiltsov%2C+N%2E+S%2E%22">Zhiltsov, N. S.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Voronin%2C+A%2E+V%2E%22">Voronin, A. V.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Goryainov%2C+V%2E+Yu%2E%22">Goryainov, V. Yu.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Mukhin%2C+E%2E+E%2E%22">Mukhin, E. E.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Tolstyakov%2C+S%2E+Yu%2E%22">Tolstyakov, S. Yu.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Varfolomeev%2C+V%2E+I%2E%22">Varfolomeev, V. I.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Gusev%2C+V%2E+K%2E%22">Gusev, V. K.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Minaev%2C+V%2E+B%2E%22">Minaev, V. B.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Novokhatsky%2C+A%2E+N%2E%22">Novokhatsky, A. N.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Patrov%2C+M%2E+I%2E%22">Patrov, M. I.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Petrov%2C+Yu%2E+V%2E%22">Petrov, Yu. V.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Sakharov%2C+N%2E+V%2E%22">Sakharov, N. V.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Kiselev%2C+E%2E+O%2E%22">Kiselev, E. O.</searchLink><relatesTo>1</relatesTo> (AUTHOR)<br /><searchLink fieldCode="AR" term="%22Shchegolev%2C+P%2E+B%2E%22">Shchegolev, P. B.</searchLink><relatesTo>1</relatesTo> (AUTHOR) – Name: TitleSource Label: Source Group: Src Data: <searchLink fieldCode="JN" term="%22Physics+of+Atomic+Nuclei%22">Physics of Atomic Nuclei</searchLink>. Dec2022, Vol. 85 Issue 7, p1214-1222. 9p. – Name: Subject Label: Subject Terms Group: Su Data: *<searchLink fieldCode="DE" term="%22Thomson+scattering%22">Thomson scattering</searchLink><br />*<searchLink fieldCode="DE" term="%22Electron+temperature%22">Electron temperature</searchLink><br />*<searchLink fieldCode="DE" term="%22Soft+X+rays%22">Soft X rays</searchLink><br />*<searchLink fieldCode="DE" term="%22Supervised+learning%22">Supervised learning</searchLink><br />*<searchLink fieldCode="DE" term="%22Tokamaks%22">Tokamaks</searchLink><br />*<searchLink fieldCode="DE" term="%22Electron+temperature+measurement%22">Electron temperature measurement</searchLink><br />*<searchLink fieldCode="DE" term="%22Machine+learning%22">Machine learning</searchLink><br />*<searchLink fieldCode="DE" term="%22Hard+X-rays%22">Hard X-rays</searchLink> – Name: Abstract Label: Abstract Group: Ab Data: An important part of high-temperature plasma study is the determination of the electron temperature dynamics in the tokamak plasma. At spherical tokamaks, one can use Thomson scattering diagnostics as well as soft X-ray emission diagnostics (SXR). The capabilities of electron temperature measurement by the first diagnostics are limited by the repetition rate of laser pulses and their number in one tokamak discharge. Data of the second diagnostics are continuous in time and are determined by the time resolution of the detectors; however, obtaining the electron temperature using these data encounters a number of difficulties considered in this study. A method of combined processing of results of these diagnostics using machine learning algorithms was developed for overcoming these difficulties and applying the adVoprosy Atomnoi Nauki i Tekhniki, Seriya: Termoyadernyi Sintezages of both diagnostics. Training data include soft X-ray diagnostic data, hard X-ray diagnostic data, and CIII line emissivity diagnostic data. Thomson local scattering measurements were used as labels for supervised machine learning. The developed technique provides significant extension of the possibilities of determining the electron temperature at the Globus-M2 tokamak. [ABSTRACT FROM AUTHOR] |
| PLink | https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=enr&AN=162412238 |
| RecordInfo | BibRecord: BibEntity: Identifiers: – Type: doi Value: 10.1134/S1063778822070122 Languages: – Code: eng Text: English PhysicalDescription: Pagination: PageCount: 9 StartPage: 1214 Subjects: – SubjectFull: Thomson scattering Type: general – SubjectFull: Electron temperature Type: general – SubjectFull: Soft X rays Type: general – SubjectFull: Supervised learning Type: general – SubjectFull: Tokamaks Type: general – SubjectFull: Electron temperature measurement Type: general – SubjectFull: Machine learning Type: general – SubjectFull: Hard X-rays Type: general Titles: – TitleFull: Application of Machine Learning to Determine Electron Temperature in Globus-M2 Tokamak Using the Soft X-Ray Emission Data and the Thomson Scattering Diagnostics Data. Type: main BibRelationships: HasContributorRelationships: – PersonEntity: Name: NameFull: Tkachenko, E. E. – PersonEntity: Name: NameFull: Kurskiev, G. S. – PersonEntity: Name: NameFull: Zhiltsov, N. S. – PersonEntity: Name: NameFull: Voronin, A. V. – PersonEntity: Name: NameFull: Goryainov, V. Yu. – PersonEntity: Name: NameFull: Mukhin, E. E. – PersonEntity: Name: NameFull: Tolstyakov, S. Yu. – PersonEntity: Name: NameFull: Varfolomeev, V. I. – PersonEntity: Name: NameFull: Gusev, V. K. – PersonEntity: Name: NameFull: Minaev, V. B. – PersonEntity: Name: NameFull: Novokhatsky, A. N. – PersonEntity: Name: NameFull: Patrov, M. I. – PersonEntity: Name: NameFull: Petrov, Yu. V. – PersonEntity: Name: NameFull: Sakharov, N. V. – PersonEntity: Name: NameFull: Kiselev, E. O. – PersonEntity: Name: NameFull: Shchegolev, P. B. IsPartOfRelationships: – BibEntity: Dates: – D: 10 M: 12 Text: Dec2022 Type: published Y: 2022 Identifiers: – Type: issn-print Value: 10637788 Numbering: – Type: volume Value: 85 – Type: issue Value: 7 Titles: – TitleFull: Physics of Atomic Nuclei Type: main |
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