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Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet : Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets. / Деринг, Екатерина Даниловна; Дубровин, Кирилл Алексеевич; Зарвин, Александр Евгеньевич и др.

в: Instruments and Experimental Techniques, Том 67, № 5, 2024, стр. 1042-1050.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Деринг, ЕД, Дубровин, КА, Зарвин, АЕ, Каляда, ВВ & Художитков, ВЭ 2024, 'Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet: Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets.', Instruments and Experimental Techniques, Том. 67, № 5, стр. 1042-1050. https://doi.org/DOI: 10.1134/S0020441224701537

APA

Деринг, Е. Д., Дубровин, К. А., Зарвин, А. Е., Каляда, В. В., & Художитков, В. Э. (2024). Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet: Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets. Instruments and Experimental Techniques, 67(5), 1042-1050. https://doi.org/DOI: 10.1134/S0020441224701537

Vancouver

Деринг ЕД, Дубровин КА, Зарвин АЕ, Каляда ВВ, Художитков ВЭ. Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet: Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets. Instruments and Experimental Techniques. 2024;67(5):1042-1050. doi: DOI: 10.1134/S0020441224701537

Author

Деринг, Екатерина Даниловна ; Дубровин, Кирилл Алексеевич ; Зарвин, Александр Евгеньевич и др. / Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet : Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets. в: Instruments and Experimental Techniques. 2024 ; Том 67, № 5. стр. 1042-1050.

BibTeX

@article{e92803e0be8043e0b0b1fe46441615ea,
title = "Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet: Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 {\AA}2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets.",
abstract = "Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 {\AA}2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets.",
author = "Деринг, {Екатерина Даниловна} and Дубровин, {Кирилл Алексеевич} and Зарвин, {Александр Евгеньевич} and Каляда, {Валерий Владимирович} and Художитков, {Виталий Эдуардович}",
note = "Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet / E. D. Dering, K. A. Dubrovin, A. E. Zarvin [et al.] // Instruments and Experimental Techniques. – 2024. – Vol. 67, No. 5. – P. 1042-1050. – DOI 10.1134/S0020441224701537. The work was performed using equipment of the Center for Collective Use “Applied Physics” (Novosibirsk State University) with financial support of the Russian Science Foundation (grant no. 22-11-00080).",
year = "2024",
doi = "DOI: 10.1134/S0020441224701537",
language = "English",
volume = "67",
pages = "1042--1050",
journal = "Instruments and Experimental Techniques",
issn = "0020-4412",
publisher = "Maik Nauka-Interperiodica Publishing",
number = "5",

}

RIS

TY - JOUR

T1 - Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet

T2 - Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets.

AU - Деринг, Екатерина Даниловна

AU - Дубровин, Кирилл Алексеевич

AU - Зарвин, Александр Евгеньевич

AU - Каляда, Валерий Владимирович

AU - Художитков, Виталий Эдуардович

N1 - Using the Method of Molecular Beam Mass Spectrometry for Studying the Particle-Scattering Process in a Clustered Jet / E. D. Dering, K. A. Dubrovin, A. E. Zarvin [et al.] // Instruments and Experimental Techniques. – 2024. – Vol. 67, No. 5. – P. 1042-1050. – DOI 10.1134/S0020441224701537. The work was performed using equipment of the Center for Collective Use “Applied Physics” (Novosibirsk State University) with financial support of the Russian Science Foundation (grant no. 22-11-00080).

PY - 2024

Y1 - 2024

N2 - Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets.

AB - Molecular beam mass spectrometry (MBMS) has been adapted at the gas dynamic stand LEMPUS-2 to study the free molecular beam particle-scattering process on particles of the background gas. The verification of the used technique in noncondensing flows was carried out, and the results of measuring the effective scattering cross sections of argon atoms and nitrogen molecules were compared with the known literature data. The process of atoms and small argon clusters (oligomers) scattering on carbon dioxide particles located in the background space at different average sizes of clusters 〈N〉 formed in the flow is investigated. When 〈N〉 ≈ 48, the obtained scattering cross-sections for argon atoms, dimers, and trimers is 39, 17, and 6 Å2, respectively. With an increase in the average cluster size in the flow, the effective scattering cross-section of argon atoms decreases. The paper discusses the causes of the detected effect as well as the features of MBMS use for the study of supersonic clustered jets.

UR - https://www.mendeley.com/catalogue/1a498fb6-ae25-3c07-96d9-c0b447c3114a/

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85218219450&origin=inward&txGid=721286bd85544fecc040ec4ee35f3053

UR - https://link.springer.com/article/10.1134/S0020441224701537

UR - https://www.elibrary.ru/item.asp?id=80289246

U2 - DOI: 10.1134/S0020441224701537

DO - DOI: 10.1134/S0020441224701537

M3 - Article

VL - 67

SP - 1042

EP - 1050

JO - Instruments and Experimental Techniques

JF - Instruments and Experimental Techniques

SN - 0020-4412

IS - 5

ER -

ID: 64688458