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非一致决策表的一种新的水平分解方法
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作者 周炜 王晓丹 路艳丽 《空军工程大学学报(自然科学版)》 CSCD 北大核心 2016年第1期96-99,共4页
在提出三异等价类和三异组这2个新概念的基础上,给出了基于粗糙集的一种新的非一致决策表水平分解方法。该方法也可以像现有分解方法那样将非一致决策表分解为1个一致决策表和1个完全不一致决策表,但分解得到的一致决策表可能比用现有... 在提出三异等价类和三异组这2个新概念的基础上,给出了基于粗糙集的一种新的非一致决策表水平分解方法。该方法也可以像现有分解方法那样将非一致决策表分解为1个一致决策表和1个完全不一致决策表,但分解得到的一致决策表可能比用现有方法分解得到的一致决策表更大一些,造成的信息损失更小一些。同时,新方法还可以用来分解一部分完全不一致的决策表,而现有方法无法分解这些完全不一致的决策表。 展开更多
关键词 粗糙集 决策表 水平分解 等价类 三异组
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Low-field-induced spin-glass behavior and controllable anisotropy in nanoparticle assemblies at a liquid-air interface
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作者 Xiaoqi Liao Seda Ulusoy +7 位作者 Rui Huang Erik Wetterskog Klas Gunnarsson Yu Wang Huawei Liang Yu-Jia Zeng German Salazar-Alvarez Peter Svedlindh 《Science China Materials》 SCIE EI CAS CSCD 2022年第1期193-200,共8页
Stacking nanoscale-building blocks into onedimensional(1D)assemblies with collective physical properties is a frontier in designing materials.However,the formation of 1D arrays using weak magnetic fields and an in-dep... Stacking nanoscale-building blocks into onedimensional(1D)assemblies with collective physical properties is a frontier in designing materials.However,the formation of 1D arrays using weak magnetic fields and an in-depth understanding of their magnetic properties remain challenging.Here,low-dimensional assemblies of iron oxide nanocubes with a disordered arrangement are fabricated at the diethylene-glycol/air interface in the presence of assembly fields(0/1/3/5/30/50 mT).Ring-shaped assemblies gradually transform as the assembly field increases from 0 to 50 mT,first to a porous network consisting of elongated assemblies and then to an aligned array of filaments,in which the aligned filaments are formed when the assembly field is≥3 mT and duration t>14 min.Spin-glass characteristics and static(dynamic)anisotropy factors~2(3)are achieved by tuning the strength of the assembly field.In the presence of a relatively weak assembly field,the interplay between dipolar interactions and disorder with respect to magnetic easy axis alignment leads to spin-glass characteristics.The alignment of the magnetic easy axes and the strength of the dipolar interactions increase with increasing assembly field,resulting in the disappearance of spin-glass characteristics and enhancement of the magnetic anisotropy.This study presents a strategy for obtaining magnetic assemblies with spin-glass behavior and controllable anisotropy while shedding light on the magnetic interactions of low-dimensional assemblies. 展开更多
关键词 magnetic nanoparticles ASSEMBLY ANISOTROPY spin glass
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