Author:
Zeng Qiaoshi,Lin Yu,Liu Yijin,Zeng Zhidan,Shi Crystal Y.,Zhang Bo,Lou Hongbo,Sinogeikin Stanislav V.,Kono Yoshio,Kenney-Benson Curtis,Park Changyong,Yang Wenge,Wang Weihua,Sheng Hongwei,Mao Ho-kwang,Mao Wendy L.
Abstract
Metallic glass (MG) is an important new category of materials, but very few rigorous laws are currently known for defining its “disordered” structure. Recently we found that under compression, the volume (V) of an MG changes precisely to the 2.5 power of its principal diffraction peak position (1/q1). In the present study, we find that this 2.5 power law holds even through the first-order polyamorphic transition of a Ce68Al10Cu20Co2 MG. This transition is, in effect, the equivalent of a continuous “composition” change of 4f-localized “big Ce” to 4f-itinerant “small Ce,” indicating the 2.5 power law is general for tuning with composition. The exactness and universality imply that the 2.5 power law may be a general rule defining the structure of MGs.
Funder
U.S. Department of Energy
National Science Foundation
Publisher
Proceedings of the National Academy of Sciences
Cited by
54 articles.
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