INVESTIGATION OF THE STRUCTURAL PHASE TRANSITION OF MnBi AND MnBiAl FILMS

doi:10.1088/1004-423X/4/9/009

Abstract

Abstract Structural phase transition of MnBi and MnBiAl films has been investigated in the tem-perature range of 30-400℃. The transition from low-temperature phase to high-temperature phase occurs in both the films, but the phase transitions appear at different temperatures. According to the measurement of Kerr rotation as a function of thermal annealing and the phase transition process, it is shown that the transition is irreversible for MnBi film and reversible for MnBiAl film under our experimental condition. For this reason, we speculate that the aluminum added in MnBi makes the bonding force of Mn atoms with their neighbors stronger, which may be the cause for the difference of the phase transition between MnBi and MnBiAl films.

Received: 24 December 1994
Accepted manuscript online:

PACS:	68.55.-a	(Thin film structure and morphology)
	64.70.K-
	81.40.Gh	(Other heat and thermomechanical treatments)
	78.20.Ls	(Magneto-optical effects)
	78.66.Bz	(Metals and metallic alloys)
	68.60.Dv	(Thermal stability; thermal effects)

Fund: Project supported by the Chinese Academy of Sciences and in part by the National Natural Science Foundation of China.

Cite this article:

YANG HUI-SHENG (杨会生), ZHANG XIAO-WEI (张晓卫), XU YAO (徐瑶), ZHU WEN-KAI (朱文凯), WANG YIN-JUN (王荫君) INVESTIGATION OF THE STRUCTURAL PHASE TRANSITION OF MnBi AND MnBiAl FILMS 1995 Acta Physica Sinica (Overseas Edition) 4 705

[1]	Coexisting lattice contractions and expansions with decreasing thicknesses of Cu (100) nano-films Simin An(安思敏), Xingyu Gao(高兴誉), Xian Zhang(张弦), Xin Chen(陈欣), Jiawei Xian(咸家伟), Yu Liu(刘瑜), Bo Sun(孙博), Haifeng Liu(刘海风), and Haifeng Song(宋海峰). Chin. Phys. B, 2023, 32(3): 036804.
[2]	Evolution of microstructure, stress and dislocation of AlN thick film on nanopatterned sapphire substrates by hydride vapor phase epitaxy Chuang Wang(王闯), Xiao-Dong Gao(高晓冬), Di-Di Li(李迪迪), Jing-Jing Chen(陈晶晶), Jia-Fan Chen(陈家凡), Xiao-Ming Dong(董晓鸣), Xiaodan Wang(王晓丹), Jun Huang(黄俊), Xiong-Hui Zeng(曾雄辉), and Ke Xu(徐科). Chin. Phys. B, 2023, 32(2): 026802.
[3]	Molecular beam epitaxy growth of quantum devices Ke He(何珂). Chin. Phys. B, 2022, 31(12): 126804.
[4]	Anomalous strain effect in heteroepitaxial SrRuO₃ films on (111) SrTiO₃ substrates Zhenzhen Wang(王珍珍), Weiheng Qi(戚炜恒), Jiachang Bi(毕佳畅), Xinyan Li(李欣岩), Yu Chen(陈雨), Fang Yang(杨芳), Yanwei Cao(曹彦伟), Lin Gu(谷林), Qinghua Zhang(张庆华), Huanhua Wang(王焕华), Jiandi Zhang(张坚地), Jiandong Guo(郭建东), and Xiaoran Liu(刘笑然). Chin. Phys. B, 2022, 31(12): 126801.
[5]	Selective formation of ultrathin PbSe on Ag(111) Jing Wang(王静), Meysam Bagheri Tagani, Li Zhang(张力), Yu Xia(夏雨), Qilong Wu(吴奇龙), Bo Li(黎博), Qiwei Tian(田麒玮), Yuan Tian(田园), Long-Jing Yin(殷隆晶), Lijie Zhang(张利杰), and Zhihui Qin(秦志辉). Chin. Phys. B, 2022, 31(9): 096801.
[6]	Efficiently enhanced energy storage performance of Ba₂Bi₄Ti₅O₁₈ film by co-doping Fe³⁺ and Ta⁵⁺ ion with larger radius Qiong Wu(吴琼), Lei Zhao(赵雷), Xinghao Chen(陈兴豪), and Shifeng Zhao(赵世峰)^†. Chin. Phys. B, 2022, 31(9): 097701.
[7]	Porous AlN films grown on C-face SiC by hydride vapor phase epitaxy Jiafan Chen(陈家凡), Jun Huang(黄俊), Didi Li(李迪迪), and Ke Xu(徐科). Chin. Phys. B, 2022, 31(7): 076802.
[8]	Micro thermoelectric devices: From principles to innovative applications Qiulin Liu(刘求林), Guodong Li(李国栋), Hangtian Zhu(朱航天), and Huaizhou Zhao(赵怀周). Chin. Phys. B, 2022, 31(4): 047204.
[9]	Synthesis of flower-like WS₂ by chemical vapor deposition Jin-Zi Ding(丁金姿), Wei Ren(任卫), Ai-Ling Feng(冯爱玲), Yao Wang(王垚), Hao-Sen Qiao(乔浩森), Yu-Xin Jia(贾煜欣), Shuang-Xiong Ma(马双雄), and Bo-Yu Zhang(张博宇). Chin. Phys. B, 2021, 30(12): 126201.
[10]	Scalable fabrication of Bi₂O₂Se polycrystalline thin film for near-infrared optoelectronic devices applications Bin Liu(刘斌) and Hong Zhou(周洪). Chin. Phys. B, 2021, 30(10): 106803.
[11]	Phase transition-induced superstructures of β-Sn films with atomic-scale thickness Le Lei(雷乐), Feiyue Cao(曹飞跃), Shuya Xing(邢淑雅), Haoyu Dong(董皓宇), Jianfeng Guo(郭剑锋), Shangzhi Gu(顾尚志), Yanyan Geng(耿燕燕), Shuo Mi(米烁), Hanxiang Wu(吴翰翔), Fei Pang(庞斐), Rui Xu(许瑞), Wei Ji(季威), and Zhihai Cheng(程志海). Chin. Phys. B, 2021, 30(9): 096804.
[12]	Water and nutrient recovery from urine: A lead up trail using nano-structured In₂S₃ photo electrodes R Jayakrishnan, T R Sreerev, and Adith Varma. Chin. Phys. B, 2021, 30(5): 056103.
[13]	Preparation of AlN film grown on sputter-deposited and annealed AlN buffer layer via HVPE Di-Di Li(李迪迪), Jing-Jing Chen(陈晶晶), Xu-Jun Su(苏旭军), Jun Huang(黄俊), Mu-Tong Niu(牛牧童), Jin-Tong Xu(许金通), and Ke Xu(徐科). Chin. Phys. B, 2021, 30(3): 036801.
[14]	Growth of high quality InSb thin films on GaAs substrates by molecular beam epitaxy method with AlInSb/GaSb as compound buffer layers Yong Li(李勇), Xiao-Ming Li(李晓明), Rui-Ting Hao(郝瑞亭), Jie Guo(郭杰), Yu Zhuang(庄玉), Su-Ning Cui(崔素宁), Guo-Shuai Wei(魏国帅), Xiao-Le Ma(马晓乐), Guo-Wei Wang(王国伟), Ying-Qiang Xu(徐应强), Zhi-Chuan Niu(牛智川), and Yao Wang(王耀). Chin. Phys. B, 2021, 30(2): 028504.
[15]	Epitaxial synthesis and electronic properties of monolayer Pd₂Se₃ Peng Fan(范朋), Rui-Zi Zhang(张瑞梓), Jing Qi(戚竞), En Li(李恩), Guo-Jian Qian(钱国健), Hui Chen(陈辉), Dong-Fei Wang(王东飞), Qi Zheng(郑琦), Qin Wang(汪琴), Xiao Lin(林晓), Yu-Yang Zhang(张余洋), Shixuan Du(杜世萱), Hofer W A, Hong-Jun Gao(高鸿钧). Chin. Phys. B, 2020, 29(9): 098102.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

INVESTIGATION OF THE STRUCTURAL PHASE TRANSITION OF MnBi AND MnBiAl FILMS

Cite this article:

Online attention