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@article{1092088, author = {Voráč, Jan and Procházka, Vojtěch and Dvořák, Pavel}, article_number = {1.12.2012}, keywords = {LIF; OH; hydroxyl; plasma pencil}, language = {eng}, issn = {0009-2770}, journal = {Chem Listy}, title = {VIBRATIONAL AND ROTATIONAL ENERGY TRANSFER IN A 2SIGMA+ STATE OF OH RADICALS MEASURED BY LASER INDUCED FLUORESCENCE}, url = {http://www.chemicke-listy.cz/common/content-issue_s5-volume_106-year_2012.html}, volume = {106}, year = {2012} }
TY - JOUR ID - 1092088 AU - Voráč, Jan - Procházka, Vojtěch - Dvořák, Pavel PY - 2012 TI - VIBRATIONAL AND ROTATIONAL ENERGY TRANSFER IN A 2SIGMA+ STATE OF OH RADICALS MEASURED BY LASER INDUCED FLUORESCENCE JF - Chem Listy VL - 106 IS - 1.12.2012 SP - 1504-1507 EP - 1504-1507 SN - 00092770 KW - LIF KW - OH KW - hydroxyl KW - plasma pencil UR - http://www.chemicke-listy.cz/common/content-issue_s5-volume_106-year_2012.html L2 - http://www.chemicke-listy.cz/common/content-issue_s5-volume_106-year_2012.html N2 - Laser induced fluorescence was used for detection of OH radicals in atmospheric pressure RF discharge ignited in argon in the so-called plasma pencil. Vibrational and rotational energy transfers in the excited states A 2 Sigma (v=0,1) together with appropriate life-times were studied. Since argon is relatively uneffective quencher, lifetimes of the excited states in plasma pencil are in the order of tens of nanoseconds, which is appreciably longer than the laser pulse. It was shown that the RET rate in plasma pencil is very high. Therefore, the rotational energy distribution of the excited state can be considered to be well thermalized. ER -
VORÁČ, Jan, Vojtěch PROCHÁZKA a Pavel DVOŘÁK. VIBRATIONAL AND ROTATIONAL ENERGY TRANSFER IN A 2SIGMA+ STATE OF OH RADICALS MEASURED BY LASER INDUCED FLUORESCENCE. \textit{Chem Listy}. 2012, roč.~106, 1.12.2012, s.~1504-1507. ISSN~0009-2770.
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