Structural disorder and magnetism in the spin-gapless semiconductor CoFeCrAl

Renu Choudhary; Parashu Kharel; Shah R. Valloppilly; Yunlong Jin; Andrew O’Connell; Yung Huh; Simeon Gilbert; Arti Kashyap; D. J. Sellmyer; Ralph Skomski

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Structural disorder and magnetism in the spin-gapless semiconductor CoFeCrAl

机译：无自旋间隙半导体CoFeCrAl中的结构无序和磁性

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Disordered CoFeCrAl and CoFeCrSi0.5Al0.5 alloys have been investigated experimentally and by first-principle calculations. The melt-spun and annealed samples all exhibit Heusler-type superlattice peaks, but the peak intensities indicate a substantial degree of B2-type chemical disorder. Si substitution reduces the degree of this disorder. Our theoretical analysis also considers several types of antisite disorder (Fe-Co, Fe-Cr, Co-Cr) in Y-ordered CoFeCrAl and partial substitution of Si for Al. The substitution transforms the spin-gapless semiconductor CoFeCrAl into a half-metallic ferrimagnet and increases the half-metallic band gap by 0.12 eV. Compared CoFeCrAl, the moment of CoFeCrSi0.5Al0.5 is predicted to increase from 2.01 μB to 2.50 μB per formula unit, in good agreement with experiment.

机译：已通过实验和第一性原理计算研究了无序CoFeCrAl和CoFeCrSi0.5Al0.5合金。熔纺和退火样品均显示出Heusler型超晶格峰，但峰强度表明B2型化学紊乱程度很大。硅取代降低了这种紊乱的程度。我们的理论分析还考虑了Y型CoFeCrAl中几种类型的抗位错（Fe-Co，Fe-Cr，Co-Cr）和部分Si替代Al。该取代将无自旋间隙的半导体CoFeCrAl转变为半金属铁氧体，并使半金属带隙增加0.12 eV。与CoFeCrAl相比，预测CoFeCrSi0.5Al0.5的矩从每个公式单位的2.01μB增加到2.50μB，与实验非常吻合。

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《AIP Advances》 |2016年第5期|共页
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Renu Choudhary; Parashu Kharel; Shah R. Valloppilly; Yunlong Jin; Andrew O’Connell; Yung Huh; Simeon Gilbert; Arti Kashyap; D. J. Sellmyer; Ralph Skomski;
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1. Magnetism, electron transport and effect of disorder in CoFeCrAl [J] . Kharel P., Zhang W., Skomski R., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2015,第24期

机译：CoFeCrAl中的磁性，电子传输和无序效应
2. Non-Heisenberg magnetism in a quaternary spin-gapless semiconductor [J] . R. Choudhary, A. Kashyap, D. Paudyal, Journal of magnetism and magnetic materials . 2020,第Mara期

机译：四季间旋转无形半导体中的非Heisenberg磁力
3. Structures, magnetism and transport properties of the potential spin-gapless semiconductor CoFeMnSi alloy [J] . Fu Huarui, Li Yunlong, Ma Li, Journal of magnetism and magnetic materials . 2019,第MARa期

机译：潜在自旋无间隙半导体CoFeMnSi合金的结构，磁性和输运性质
4. Magnetism influenced by structural disorder in melt-spun DyMn_(6-x)Ge_(6-x)Fe_xAl_x (x = 2.5, 3) [C] . B. Idzikowski, Z. Sniadecki, J.-M. Greneche International Symposium on the Industrial Applications of the Mossbauer effect . 2013

机译：由熔融 - 纺DYMN_（6-X）GE_（6-X）FE_AL_X（x = 2.5,3）的结构障碍影响的磁性
5. Magnetism, semiconductors and spins: Hybrid ferromagnetic semiconductor and semiconductor spintronic systems. [D] . Berry, Joseph Jonathan. 2001

机译：磁性，半导体和自旋：混合铁磁半导体和半导体自旋电子系统。
6. Strain Conditions for the Inverse Heusler Type Fully Compensated Spin-Gapless Semiconductor Ti2MnAl: A First-Principles Study [O] . Tie Yang, Liyu Hao, Rabah Khenata, 2018

机译：逆霍斯勒型完全补偿自旋无间隙半导体Ti2MnAl的应变条件：第一性原理研究
7. Structural disorder and magnetism in the spin-gapless semiconductor CoFeCrAl [O] . Renu Choudhary, Parashu Kharel, Shah R. Valloppilly, 2016

机译：自旋无间隙半导体CoFeCral中的结构无序和磁性
8. Structural Disorder and Magnetism in the Spin-Gapless Semiconductor CoFeCrAl. [R] . Choudhary, R., Kharel, P., Valloppilly, S. R., 2016

机译：自旋无间隙半导体CoFeCral中的结构紊乱和磁性。

Structural disorder and magnetism in the spin-gapless semiconductor CoFeCrAl

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