Modeling of Kinetic Processes in an Analytical Gas Detector Based on Plasma Electron Spectroscopy

Мұқаба

Дәйексөз келтіру

Толық мәтін

Ашық рұқсат Ашық рұқсат
Рұқсат жабық Рұқсат берілді
Рұқсат жабық Тек жазылушылар үшін

Аннотация

Numerical calculations based on a hybrid model of near-cathode plasma (negative glow) of a short glow discharge have been performed to describe processes occurring in a newly developed PLES (plasma electron spectroscopy) detector for gas chromatography. The formation of narrow peaks is demonstrated, which are the spectra of fast electrons generated by Penning ionization from atoms and molecules of helium impurities, such as Ar, N2, O2, and CO2.

Авторлар туралы

A. Saifutdinov

Tupolev National Research Technical University—KAI

Email: as.uav@bk.ru
Kazan, Russia

S. Sysoev

St. Petersburg State University

Email: as.uav@bk.ru
St. Petersburg, Russia

Kh. Nuriddinov

Tupolev National Research Technical University—KAI

Email: as.uav@bk.ru
Kazan, Russia

D. Valeeva

Tupolev National Research Technical University—KAI

Email: as.uav@bk.ru
Kazan, Russia

A. Saiko

Tupolev National Research Technical University—KAI

Хат алмасуға жауапты Автор.
Email: as.uav@bk.ru
Kazan, Russia

Әдебиет тізімі

  1. Kumar A., Lin P. A., Xue A., Hao B., Yap K.Y. and Sankaran R.M. // Nature commun. 2013. 4. P. 2618.
  2. Kortshagen U.R., Sankaran R.M., Pereira R.N. et al. // Chem. Rev. 2016. V. 116. P. 11061–11127.
  3. Lin L and Wang Q // Plasma Chem. Plasma Process. 2015. V. 35. P. 925–962.
  4. Wang P.Y., Chen W.G., Wang J.X., Zhou F., Hu J., Zhang Z.X., and Wan F. // Anal. Chem. 2021. V. 93. P. 15474–15481.
  5. Gouma P., Prasad A., Stanacevic S.A. // J. Breath Res. 2011. V. 5. P. 037110.
  6. Čermák, V. // The Journal of Chemical Physics. 1966. V. 44. № 10. P. 3781–3786.
  7. Cermák V., Herman Z. // Chemical Physics Letters. 1968. V. 2. № 6. P. 359–362.
  8. Schmeltekopf A.L., Fehsenfeld F.C. // The Journal of Chemical Physics. 1970. V. 53. № 8. P. 3173–3177.
  9. Čermák V., Ozenne J.B. // International Journal of Mass Spectrometry and Ion Physics. 1971. 7(5). P. 399–413.
  10. Cermak V. // J . Electron. Spectr. and Relat. Phenomena. 1976. V. 9. P. 419.
  11. Demidov V.I., Kolokolov N.B. // Soviet Physics Journal 1987. 30(2). 97–99. https://doi.org/10.1007/bf00898142
  12. Kolokolov N.B., Kudrjavtsev A.A., Blagoev A.B. // Physica Scripta. 1994. 50(4). 371–402.
  13. Смирнов Б.М. // УФН. 1981. V. 133. № 4. P. 569–616.
  14. Демидов В.И., Колоколов Н.Б., Кудрявцев А.А., Зондовые методы исследования низкотемпературной плазмы // Энергоатомиздат, 1996.
  15. Кудрявцев А.А., Чирцов А.С., Цыганов А.Б. Способ определения состава газовых смесей и ионизационный детектор для анализа примесей в газах. 2011 – Патент на изобретения РФ № 2422812.
  16. Ivanov Yu.A., Lebedev Yu.A., Polak L.S. Metody kontaktnoi diagnostiki v neravnovesnoi plazmokhimii (Contact Diagnostics Methods for Non-Equilibrium Plasma Chemistry), M.: Nauka, 1981.
  17. Chen F.F. // Langmuir Probe Analysis for High Density Plasmas, LTP-006, Los Angeles, CA: Univ. of California, 2000.
  18. Rudenko K.V., Myakon’kikh A.V., Orlikovsky A.A. // Russ. Microelectron. 2007. V. 36. № 3. P. 179–192.
  19. Impedans Langmuir Probe Measurement System, Exploitation Manual. Accessed August 26, 2016.
  20. Saifutdinov A.I., Sysoev S.S. // Instrum. Exp. Tech. 2022. V. 65. P. 75–79.
  21. Kudryavtsev A., Pramatarov P., Stefanova M., Khromov N. // JINST 7. 2012. P. 07002.
  22. Stefanova M., Pramatarov P., Kudryavtsev A., Peyeva R. // J. Phys.: Conf. Ser. 2014 V. 514. P. 012052.
  23. Kudryavtsev A.A., Stefanova M.S., Pramatarov P. // J. Appl. Phys. 2015. V. 117. P. 133303.
  24. Kudryavtsev A.A., Stefanova M.S., Pramatarov P.M. // Phys. Plasmas. 2015. V. 22. P. 103513.
  25. Yuan C.X., Kudryavtsev A.A., Saifutdinov A.I. et al. // Phys. Plasmas. 2018. V. 25. P. 104501.
  26. Kudryavtsev A.A., Saifutdinov A.I., Stefanova M.S. et al. // Physics of Plasmas. 2017. V. 24. № 5. P. 054507.
  27. Zhou C., Yao J.F., Saifutdinov A.I. et al. // Plasma Sources Sci. Technol. 2021. 30. 117001.
  28. Yuan C., Kudryavtsev A., Saifutdinov A. et al. // Plasma Sources Science and Technology. 2019. 28. 067001.
  29. Saifutdinov A.I., Sysoev S.S. // Plasma Sources Sci. Technol. 2021. V. 30. 017001.
  30. Zhou Ch., Yao J., Saifutdinov A. et al. // Plasma Sources Science and Technology. 2022. V. 31. 107001.
  31. Кудрявцев А.А., Смирнов А.С., Цендин Л.Д. // Физика тлеющего разряда, СПб.: Лань, 2010, 512 с.
  32. Chai Y., Yao J., Bogdanov E.A., Kudryavtsev A.A., Yuan Ch., Zhou Zh. // Plasma Sources Sci. Technol. 2021. V. 30. P. 095006.
  33. Alves L.L., Gousset G., Ferreira C.M. // Physical Review E. 1997. V. 55(1). P. 890–906.
  34. Zobnin A.V., Usachev A.D., Petrov O.F., Fortov V.E. // Phys. Plasmas. 2014. V. 21. P. 113503.
  35. Phelps database, private communication, www.lxcat.net, retrieved on August 15, 2021.
  36. IST-Lisbon database, private communication, www.lxcat.net, retrieved on August 15, 2021.

Қосымша файлдар


© А.И. Сайфутдинов, С.С. Сысоев, Х. Нуриддинов, Д.Р. Валеева, А.М. Сайко, 2023

Осы сайт cookie-файлдарды пайдаланады

Біздің сайтты пайдалануды жалғастыра отырып, сіз сайттың дұрыс жұмыс істеуін қамтамасыз ететін cookie файлдарын өңдеуге келісім бересіз.< / br>< / br>cookie файлдары туралы< / a>