High-density plasma-arc heating studies of FePt thin films

被引:0
|
作者
Amanda Cole
Gregory B. Thompson
J. W. Harrell
J. Weston
Ronald Ott
机构
[1] the Department of Metallurgical and Materials Engineering at the University of Alabama (UA) in Tuscaloosa,
[2] UA Department of Physics and Astronomy,undefined
[3] UA Center for Materials and Information Technology,undefined
[4] the Metals and Ceramics Division at Oak Ridge National Laboratory in Oak Ridge,undefined
来源
JOM | 2006年 / 58卷
关键词
FePt; Rapid Thermal Annealing; FePd; Perpendicular Magnetic Record; Excimer Laser Annealing;
D O I
暂无
中图分类号
学科分类号
摘要
The effect of pulsed-thermal-processing with high-density plasma arc heating is discussed for 20 nm thick nanocrystalline FePt thin films. The dependence of the A1→L10 phase transformation on pulsed time and radiant energy of the pulse is quantified through x-ray diffraction and alternating gradient magnetometry. For 100 ms and 250 ms pulse widths, the phase transformation was observed. Higher radiant energy densities resulted in a larger measured coercivity associated with the L10 phase.
引用
收藏
页码:39 / 42
页数:3
相关论文
共 50 条
  • [21] Electrical and thermal parameters of plasma-arc heating of objects by means of combined arc
    Latash, Yu.V.
    Zabarilo, O.S.
    Donskoj, S.A.
    Matvienko, V.A.
    Kulinich, V.I.
    Mel'nik, G.A.
    Prikhod'ko, M.S.
    Zhdanovskij, A.A.
    Oleksenko, I.A.
    Zamulo, N.I.
    Goncharenko, V.V.
    Shakhmin, S.I.
    Zuev, F.F.
    Reida, N.V.
    Shrubovich, V.A.
    Problemy Spetsial'noj Electrometallugii, 1992, (02):
  • [22] Magnetic thin films for high-density recording
    Univ of Twente, Enschede, Netherlands
    Thin Solid Films, 1-2 (474-483):
  • [23] Magnetic thin films for high-density recording
    Lodder, JC
    THIN SOLID FILMS, 1996, 281 : 474 - 483
  • [24] High-density plasma silicon oxide thin films grown at room-temperature
    Vlachopoulou, M. E.
    Dimitrakis, P.
    Tserepi, A.
    Vamvakas, V. Em.
    Koliopoulou, S.
    Normand, P.
    Gogolides, E.
    Tsoukalas, D.
    MICROELECTRONIC ENGINEERING, 2008, 85 (5-6) : 1245 - 1247
  • [25] EFFECTIVE APPLICATION OF TURBULENT HEATING TO HIGH-DENSITY TOKAMAK PLASMA
    WATANABE, T
    NAGAO, A
    NAKAMURA, Y
    ITOH, S
    JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES & REVIEW PAPERS, 1983, 22 (12): : 1910 - 1914
  • [26] Schemes for ICRF Heating of High-Density Core Plasma in LHD
    Saito, Kenji
    Seki, Ryosuke
    Kamio, Shuji
    Kasahara, Hiroshi
    Seki, Tetsuo
    PLASMA AND FUSION RESEARCH, 2020, 15
  • [27] TRANSPORT AND HEATING OF SMALL PARTICLES IN HIGH-DENSITY PLASMA SOURCES
    KILGORE, MD
    DAUGHERTY, JE
    PORTEOUS, RK
    GRAVES, DB
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 1994, 12 (01): : 486 - 493
  • [28] PRODUCTION OF A HIGH-DENSITY PLASMA TARGET FOR REB HEATING EXPERIMENTS
    LEN, LK
    WOODALL, DM
    EKDAHL, CA
    BULLETIN OF THE AMERICAN PHYSICAL SOCIETY, 1980, 25 (08): : 1011 - 1011
  • [29] HEATING OF ELECTRODE METAL IN CONSUMABLE ELECTRODE PLASMA-ARC WELDING IN ARGON
    AKULOV, AI
    BOZHENKO, BL
    RONSKII, VL
    WELDING PRODUCTION, 1983, 30 (02): : 6 - 8
  • [30] Generation of stationary high-density cascade arc plasma and application to plasma windows
    Yamasaki, K.
    Yanagi, O.
    Sunada, Y.
    Okuda, K.
    Saito, A.
    Kono, J.
    Mori, D.
    Tamura, N.
    Okuno, H.
    Namba, S.
    JAPANESE JOURNAL OF APPLIED PHYSICS, 2023, 62 (SL)
12345