Title :
Low-Power Photo-Induced Precession of Magnetization in Ultra-Thin Co/Pd Multilayer Films
Author :
Yamamoto, Koji ; Matsuda, Tadamitsu ; Nishibayashi, K. ; Kitamoto, Y. ; Munekata, H.
Author_Institution :
Imaging Sci. & Eng. Lab., Tokyo Inst. of Technol., Yokohama, Japan
Abstract :
Photo-induced precession of magnetization (PIPM) has been studied in ultra-thin [Co/Pd]5 multilayered structures at the region of pump fluences F = 0.11 to 11 μJ/cm2. In a series of samples with tpd = 1.62 nm, precession amplitude has increased at tCo = 0.86 nm, around which magnetic anisotropy changes between in-plane (tCo > 0.86 nm) and out-of-plane (tCo ≤ 0.86 nm). When tPd was reduced in half (tpd = 0.81 nm) the amplitude of PIPM has increased significantly, which leads us to the observation of PIPM at F = 0.25 μJ/cm2, the regime of low energy excitation. A model which connects precession amplitude and parameters associated with spin dynamics has been developed, through which efficiency of energy transfer between electron and spin subsystems has been examined quantitatively.
Keywords :
cobalt; magnetic multilayers; magnetic thin films; metallic thin films; palladium; perpendicular magnetic anisotropy; spin dynamics; Co-Pd; PIPM; energy excitation; energy transfer; low-power photoinduced precession; magnetic anisotropy; magnetization; spin dynamics; ultrathin multilayer films; ultrathin multilayered structures; Magnetic multilayers; Magnetization; Nonhomogeneous media; Perpendicular magnetic anisotropy; Perpendicular magnetic recording; Co/Pd multilayers; magnetic films; magnetic resonance; magnetooptic effects; perpendicular magnetic anisotropy;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2240379
