Multiply twinned FePt nanoparticles with icosahedral structures were prepared by dc magnetron sputtering in argon. The icosahedral structure of these particles is known to be very stable against structural transformations into both the face-centered cubic phase (fee, Al) and the chemically ordered tetragonal L1(0) phase upon in-flight or post-deposition thermal annealing. Irradiation of these multiply twinned FePt particles with 5 keV He ions, however, resulted in a transformation into predominantly single crystalline fee particles at high ion fluences of f > 10(17) ions /cm(2). Adjacent particles were observed to coalesce under the effect of He irradiation, and the size of individual particles was found to be slightly reduced, which indicates a high atomic mobility owing to temporarily enhanced defect concentrations caused by the ion bombardment. Strikingly, there was no indication for the occurrence of L1(0) ordered FePt nanoparticles upon ion irradiation in these samples. (c) 2005 American Institute of Physics.
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机译:采用直流磁控溅射在氩气中制备了具有二十面体结构的多重孪生FePt纳米颗粒。已知这些颗粒的二十面体结构在飞行中或沉积后热退火时对面心立方相(fee,Al)和化学有序的四方L1(0)相的结构转变非常稳定。然而,用 5 keV He 离子照射这些多重孪生的 FePt 颗粒导致在 f > 10(17) 离子 /cm(2) 的高离子通量下转变为主要是单晶电荷粒子。观察到相邻粒子在氦辐照作用下聚结,发现单个粒子的尺寸略有减小,这表明由于离子轰击引起的缺陷浓度暂时升高,原子迁移率很高。引人注目的是,在这些样品中,没有迹象表明在离子辐照下会出现L1(0)有序FePt纳米颗粒。(c) 2005年美国物理研究所。
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