Materials Science Aspects of FePt-Based Thin Films’ Formation

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Uspekhi Fiziki Metallov-Progress in Physics of Metals Pub Date : 2018-09-01 DOI:10.15407/UFM.19.03.337

O. Shamis, I. Vladymyrskyi, Yu. M. Makogon, S. I. Sidorenko

引用次数: 3

Abstract

the goal of this review is consideration of basic physical and materials science ap proaches for providing predefined properties of nanosize thin FePtbased films. Achievement of such properties is required for the industrial application of these materials as magnetic ultrahighdensity recording media. Various approaches are considered to solve the problems such as the reduction of the ordering temperature, formation of the requisite crystallographic orientation of the orderedphase grains, increase of the coercivity, and providing of the possibility to control the change in the magnetization of these materials.

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基于fept薄膜形成的材料科学方面

这篇综述的目的是考虑基本的物理和材料科学的方法来提供纳米尺寸的fept基薄膜的预定性质。实现这些特性是这些材料作为磁性超高密度记录介质的工业应用所必需的。研究了降低有序温度、形成有序相晶粒所需的晶体取向、提高矫顽力以及提供控制这些材料磁化变化的可能性等问题的解决方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Uspekhi Fiziki Metallov-Progress in Physics of Metals Multiple-

CiteScore

3.10

自引率

18.80%

发文量

审稿时长

13 weeks

期刊介绍： The review journal Uspehi Fiziki Metallov (abbreviated key-title: Usp. Fiz. Met.) was founded in 2000. In 2018, the journal officially obtained parallel title Progress in Physics of Metals (abbreviated title — Prog. Phys. Met.). The journal publishes articles (that has not been published nowhere earlier and are not being considered for publication elsewhere) comprising reviews of experimental and theoretical results in physics and technology of metals, alloys, compounds, and materials that possess metallic properties; reviews on monographs, information about conferences, seminars; data on the history of metal physics; advertising of new technologies, materials and devices. Scope of the Journal: Electronic Structure, Electrical, Magnetic and Optical Properties; Interactions of Radiation and Particles with Solids and Liquids; Structure and Properties of Amorphous Solids and Liquids; Defects and Dynamics of Crystal Structure; Mechanical, Thermal and Kinetic Properties; Phase Equilibria and Transformations; Interphase Boundaries, Metal Surfaces and Films; Structure and Properties of Nanoscale and Mesoscopic Materials; Treatment of Metallic Materials and Its Effects on Microstructure and Properties.