Отрывок: The atomic excitation temperature is close to 10000 K, vibrational temperature varies in the range of 3500–5000 K, while the rotational temperature is noticeably lower than ~2000–3000 K. Moreover, the specific values of rotational temperatures vary greatly from band to band. We also found the significant deviation of lines’...
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dc.date.accessioned2022-10-06 14:28:35-
dc.date.available2022-10-06 14:28:35-
dc.date.issued2022ru
dc.identifierRU\НТБ СГАУ\490151ru
dc.identifier.citationIn search of equilibrium in laser-produced cloud: role of pressure, chemical quenching, and plasma expansion // International Conference on Physics and Chemistry of Combustion and in Extreme Environments (Samara, Russia, 12-16 July 2022) / V. N. Azyazov, A. M. Mayorova. - Samara : Publishing OOO “Insoma-Press”, 2022. - P. 46.ru
dc.identifier.urihttp://repo.ssau.ru/handle/International-Conference/In-search-of-equilibrium-in-laserproduced-cloud-role-of-pressure-chemical-quenching-and-plasma-expansion-98828-
dc.language.isoengru
dc.sourceInternational Conference on Physics and Chemistry of Combustion and in Extreme Environments (Samara, Russia, 12-16 July 2022)ru
dc.titleIn search of equilibrium in laser-produced cloud: role of pressure, chemical quenching, and plasma expansionru
dc.typeTextru
dc.textpartThe atomic excitation temperature is close to 10000 K, vibrational temperature varies in the range of 3500–5000 K, while the rotational temperature is noticeably lower than ~2000–3000 K. Moreover, the specific values of rotational temperatures vary greatly from band to band. We also found the significant deviation of lines’...-
Располагается в коллекциях: International Conference on Combustion Physics and Chemistry

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