Hot target magnetron sputtering enhanced by RF-ICP source for CrNx coatings deposition

Hot target magnetron sputtering enhanced by RF-ICP source for CrNx coatings deposition

Xehetasun bibliografikoak
Parent link:	Vacuum Vol. 191.— 2021.— [110400, 9 p.]
Erakunde egilea:	Национальный исследовательский Томский политехнический университет Инженерная школа ядерных технологий Научно-образовательный центр Б. П. Вейнберга
Beste egile batzuk:	Grudinin V. A. Vladislav Alekseevich, Sidelev D. V. Dmitry Vladimirovich, Bleykher (Bleicher) G. A. Galina Alekseevna, Yuriev Yu. N. Yuri Nikolaevich, Krivobokov V. P. Valery Pavlovich, Berlin E. V. Evgeny Vladimirovich, Grigorjev V. Yu. Vyacheslav Yurjevich, Obrosov A. Aleksey, Weifs S. Sabine
Gaia:	Title screen This article describes hot Cr target magnetron sputtering enhanced by a radio-frequency inductively coupled plasma (RF-ICP) source in an Ar+N2 atmosphere. Optical emission spectroscopy revealed an opportunity to perform magnetron sputtering in an inert (Ar) atmosphere, while the CrNx coating can be deposited on a substrate in a chemically reactive atmosphere formed by the RF-ICP source. High stability and repeatability of deposition process were observed, and the deposition rate of the CrNx coatings increased from 106 to 127 nm/min as N2 flow rate rose. The power of the RF-ICP source and the N2 flow rate can be used to tailor and control deposition conditions. The XRD and WDS measurements showed the effect of deposition conditions on the crystal structure and elemental composition of CrNx coatings. It was found that the change of substrate bias, RF-ICP source power and N2 flow rate result in variation of coating stoichiometry from pure Cr to CrN. Режим доступа: по договору с организацией-держателем ресурса
Argitaratua:	2021
Gaiak:	электронный ресурс труды учёных ТПУ CrN coatings hot target magnetron sputtering high-rate deposition RF inductively coupled plasma магнетронное распыление высокоскоростное осаждение плазма мишени покрытия эмиссионная спектроскопия
Sarrera elektronikoa:	https://doi.org/10.1016/j.vacuum.2021.110400
Formatua:	Baliabide elektronikoa Liburu kapitulua
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=665254

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