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@article{a5bc3658fe324419956105430950f60f,
title = "The formation of an oscillating system during the sputtering of sapphire single crystal with pulsed glow discharge",
abstract = "Sapphire (α-Al 2O 3, transparent corundum) single crystals were analyzed with pulsed direct current glow discharge mass spectrometry. Combined hollow cathode was used as a discharge cell. To obtain stable sputtering of dielectric material, a formation of initial surface conductivity via preliminary vacuum deposition of thin metallic layer was proposed. Al and Ta film of different thickness (30–200 nm) were considered for this purpose. The approach was found to provide the effective sputtering of dielectrics. The formation of an oscillating system was shown during the sputtering of sapphire samples in a tantalum combined hollow cathode cell. For oriented sapphire single crystals, periodic oscillations of 27Al + intensity were acquired. This phenomenon was observed only for dielectric single crystals and not for other dielectric samples, e.g. alumina ceramic or fused quartz. The linear dependence of oscillation period on the duration of discharge pulse was found. The origin of these oscillations seems to be attributed to periodic fluctuations of surface conductivity. Oscillation periods calculated for two different orientations of sapphire single crystals (001 and 012) were found to be proportional to the main period of sapphire lattice. Therefore, an assumption that the crystal internal structure of the sample might be the cause of the oscillations is discussed. ",
keywords = "Oscillations, Pulsed glow discharge, Sapphire, Single crystal, Surface conductivity, Time-of-flight mass spectrometry, DEPTH-PROFILE ANALYSIS, HOLLOW-CATHODE, SECONDARY CATHODE, TIME, IRRADIATION, FLIGHT MASS-SPECTROMETRY, OPTICAL-EMISSION-SPECTROMETRY, OXIDE-FILMS, SAMPLES, THIN",
author = "Ганеев, {Александр Ахатович} and Губаль, {Анна Романовна} and Соловьев, {Николай Дмитриевич} and Коротецкий, {Борис Александрович} and Чучина, {Виктория Александровна} and Немец, {Валерий Михайлович}",
note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Masson SAS",
year = "2018",
month = sep,
doi = "https://doi.org/10.1016/j.solidstatesciences.2018.07.003",
language = "English",
volume = "83",
pages = "49--55",
journal = "Solid State Sciences",
issn = "1293-2558",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - The formation of an oscillating system during the sputtering of sapphire single crystal with pulsed glow discharge

AU - Ганеев, Александр Ахатович

AU - Губаль, Анна Романовна

AU - Соловьев, Николай Дмитриевич

AU - Коротецкий, Борис Александрович

AU - Чучина, Виктория Александровна

AU - Немец, Валерий Михайлович

N1 - Publisher Copyright: © 2018 Elsevier Masson SAS

PY - 2018/9

Y1 - 2018/9

N2 - Sapphire (α-Al 2O 3, transparent corundum) single crystals were analyzed with pulsed direct current glow discharge mass spectrometry. Combined hollow cathode was used as a discharge cell. To obtain stable sputtering of dielectric material, a formation of initial surface conductivity via preliminary vacuum deposition of thin metallic layer was proposed. Al and Ta film of different thickness (30–200 nm) were considered for this purpose. The approach was found to provide the effective sputtering of dielectrics. The formation of an oscillating system was shown during the sputtering of sapphire samples in a tantalum combined hollow cathode cell. For oriented sapphire single crystals, periodic oscillations of 27Al + intensity were acquired. This phenomenon was observed only for dielectric single crystals and not for other dielectric samples, e.g. alumina ceramic or fused quartz. The linear dependence of oscillation period on the duration of discharge pulse was found. The origin of these oscillations seems to be attributed to periodic fluctuations of surface conductivity. Oscillation periods calculated for two different orientations of sapphire single crystals (001 and 012) were found to be proportional to the main period of sapphire lattice. Therefore, an assumption that the crystal internal structure of the sample might be the cause of the oscillations is discussed.

AB - Sapphire (α-Al 2O 3, transparent corundum) single crystals were analyzed with pulsed direct current glow discharge mass spectrometry. Combined hollow cathode was used as a discharge cell. To obtain stable sputtering of dielectric material, a formation of initial surface conductivity via preliminary vacuum deposition of thin metallic layer was proposed. Al and Ta film of different thickness (30–200 nm) were considered for this purpose. The approach was found to provide the effective sputtering of dielectrics. The formation of an oscillating system was shown during the sputtering of sapphire samples in a tantalum combined hollow cathode cell. For oriented sapphire single crystals, periodic oscillations of 27Al + intensity were acquired. This phenomenon was observed only for dielectric single crystals and not for other dielectric samples, e.g. alumina ceramic or fused quartz. The linear dependence of oscillation period on the duration of discharge pulse was found. The origin of these oscillations seems to be attributed to periodic fluctuations of surface conductivity. Oscillation periods calculated for two different orientations of sapphire single crystals (001 and 012) were found to be proportional to the main period of sapphire lattice. Therefore, an assumption that the crystal internal structure of the sample might be the cause of the oscillations is discussed.

KW - Oscillations

KW - Pulsed glow discharge

KW - Sapphire

KW - Single crystal

KW - Surface conductivity

KW - Time-of-flight mass spectrometry

KW - DEPTH-PROFILE ANALYSIS

KW - HOLLOW-CATHODE

KW - SECONDARY CATHODE

KW - TIME

KW - IRRADIATION

KW - FLIGHT MASS-SPECTROMETRY

KW - OPTICAL-EMISSION-SPECTROMETRY

KW - OXIDE-FILMS

KW - SAMPLES

KW - THIN

UR - http://www.scopus.com/inward/record.url?scp=85053105050&partnerID=8YFLogxK

UR - http://www.mendeley.com/research/formation-oscillating-system-during-sputtering-sapphire-single-crystal-pulsed-glow-discharge

U2 - https://doi.org/10.1016/j.solidstatesciences.2018.07.003

DO - https://doi.org/10.1016/j.solidstatesciences.2018.07.003

M3 - Article

VL - 83

SP - 49

EP - 55

JO - Solid State Sciences

JF - Solid State Sciences

SN - 1293-2558

ER -

ID: 33810527