Please wait a minute...
Acta Physica Sinica (Overseas Edition), 1997, Vol. 6(8): 619-623    DOI: 10.1088/1004-423X/6/8/008
CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES Prev   Next  

FORMATION OF MULTI-BRANCHED DOMAINS IN GARNET BUBBLE FILMS BY LOW-BIAS-PULSE METHOD

HAN BAO-SHAN (韩宝善)a, MENG GUANG-QING (孟广庆)a, GUO GE-XIN (郭革新)b
a State Key Laboratory of Magnetism, Institute of Physics, Academia Sinica, Beijing 100080, China; b Department of Physics, Hebei Teachers University, Shijiazhuang 050016. China
Abstract  The formation of multi-branched domains( MBDs) at low static bias field was first studied. With multiple branches, MBDs contain more or less same-signed vertical-Bloch-lines (VBLs) in their walls, Experiments. on four samples have shown that under certain conditions, the amount and hardness of the MBDs formed can be easily controlled, and so-called "low-bias-field method" is another effective way to form VBL chains. It was found that MBDs are formed due to the expansion of domain segments after compressed by a rectangular bias pulse. The number of VBLs nucleated in domain walls is affected by the space where the domains expand rapidly.
Received:  18 December 1996      Accepted manuscript online: 
PACS:  75.70.Kw (Domain structure (including magnetic bubbles and vortices))  
  75.50.Gg (Ferrimagnetics)  
  75.70.Ak (Magnetic properties of monolayers and thin films)  
  62.20.Qp (Friction, tribology, and hardness)  
  81.40.Np (Fatigue, corrosion fatigue, embrittlement, cracking, fracture, and failure)  
  75.60.Ch (Domain walls and domain structure)  

Cite this article: 

HAN BAO-SHAN (韩宝善), MENG GUANG-QING (孟广庆), GUO GE-XIN (郭革新) FORMATION OF MULTI-BRANCHED DOMAINS IN GARNET BUBBLE FILMS BY LOW-BIAS-PULSE METHOD 1997 Acta Physica Sinica (Overseas Edition) 6 619

[1] Magnetic triangular bubble lattices in bismuth-doped yttrium iron garnet
Tao Lin(蔺涛), Chengxiang Wang(王承祥), Zhiyong Qiu(邱志勇), Chao Chen(陈超), Tao Xing(邢弢), Lu Sun(孙璐), Jianhui Liang(梁建辉), Yizheng Wu(吴义政), Zhong Shi(时钟), and Na Lei(雷娜). Chin. Phys. B, 2023, 32(2): 027505.
[2] Thickness-dependent magnetic properties in Pt/[Co/Ni]n multilayers with perpendicular magnetic anisotropy
Chunjie Yan(晏春杰), Lina Chen(陈丽娜), Kaiyuan Zhou(周恺元), Liupeng Yang(杨留鹏), Qingwei Fu(付清为), Wenqiang Wang(王文强), Wen-Cheng Yue(岳文诚), Like Liang(梁力克), Zui Tao(陶醉), Jun Du(杜军),Yong-Lei Wang(王永磊), and Ronghua Liu(刘荣华). Chin. Phys. B, 2023, 32(1): 017503.
[3] Experimental observation of interlayer perpendicular standing spin wave mode with low damping in skyrmion-hosting [Pt/Co/Ta]10 multilayer
Zhen-Dong Chen(陈振东), Mei-Yang Ma(马眉扬), Sen-Fu Zhang(张森富), Mang-Yuan Ma(马莽原), Zi-Zhao Pan(潘咨兆), Xi-Xiang Zhang(张西祥), Xue-Zhong Ruan(阮学忠), Yong-Bing Xu(徐永兵), and Fu-Sheng Ma(马付胜). Chin. Phys. B, 2022, 31(11): 117501.
[4] Voltage-controllable magnetic skyrmion dynamics for spiking neuron device applications
Ming-Min Zhu(朱明敏), Shu-Ting Cui(崔淑婷), Xiao-Fei Xu(徐晓飞), Sheng-Bin Shi(施胜宾), Di-Qing Nian(年迪青), Jing Luo(罗京), Yang Qiu(邱阳), Han Yang(杨浛), Guo-Liang Yu(郁国良), and Hao-Miao Zhou (周浩淼). Chin. Phys. B, 2022, 31(1): 018503.
[5] Evolution of domain structure in Fe3GeTe2
Siqi Yin(尹思琪), Le Zhao(赵乐), Cheng Song(宋成), Yuan Huang(黄元), Youdi Gu(顾有地), Ruyi Chen(陈如意), Wenxuan Zhu(朱文轩), Yiming Sun(孙一鸣), Wanjun Jiang(江万军), Xiaozhong Zhang(章晓中), and Feng Pan(潘峰). Chin. Phys. B, 2021, 30(2): 027505.
[6] Thickness-dependent magnetic anisotropy in obliquely deposited Fe(001)/Pd thin film bilayers probed by VNA-FMR
Qeemat Gul, Wei He(何为), Yan Li(李岩), Rui Sun(孙瑞), Na Li(李娜), Xu Yang(杨旭), Yang Li(李阳), Zi-Zhao Gong(弓子召), Zong-Kai Xie(谢宗凯), Xiang-Qun Zhang(张向群), Zhao-Hua Cheng(成昭华). Chin. Phys. B, 2019, 28(7): 077502.
[7] Dynamic nucleation of domain-chains in magnetic nanotracks
Xiangjun Jin(金香君), Yong Li(李勇), Fusheng Ma(马付胜). Chin. Phys. B, 2018, 27(12): 127504.
[8] Realization of artificial skyrmion in CoCrPt/NiFe bilayers
Yi Liu(刘益), Yong-Ming Luo(骆泳铭), Zheng-Hong Qian(钱正洪), Jian-Guo Zhu(朱建国). Chin. Phys. B, 2018, 27(12): 127503.
[9] Lorentz transmission electron microscopy studies on topological magnetic domains
Li-Cong Peng(彭丽聪), Ying Zhang(张颖), Shu-Lan Zuo(左淑兰), Min He(何敏), Jian-Wang Cai(蔡建旺), Shou-Guo Wang(王守国), Hong-Xiang Wei(魏红祥), Jian-Qi Li(李建奇), Tong-Yun Zhao(赵同云), Bao-Gen Shen(沈保根). Chin. Phys. B, 2018, 27(6): 066802.
[10] Investigation of magnetization reversal process in pinned CoFeB thin film by in-situ Lorentz TEM
Ke Pei(裴科), Wei-Xing Xia(夏卫星), Bao-Min Wang(王保敏), Xing-Cheng Wen(文兴成), Ping Sheng(盛萍), Jia-Ping Liu(刘家平), Xin-Cai Liu(刘新才), Run-Wei Li(李润伟). Chin. Phys. B, 2018, 27(4): 047502.
[11] Faster vortex core switching with lower current density using three-nanocontact spin-polarized currents in a confined structure
Hua-Nan Li(李化南), Zhong Hua(华中), Dong-Fei Li(李东飞). Chin. Phys. B, 2017, 26(1): 017502.
[12] Control of Hall angle of Skyrmion driven by electric current
Gao-Bin Liu(刘高斌), Da Li(李达), de Chatel P F, Jian Wang(王健), Wei Liu(刘伟), Zhi-Dong Zhang(张志东). Chin. Phys. B, 2016, 25(6): 067203.
[13] Magnetization reversal process in Fe/Si (001) single-crystalline film investigated by planar Hall effect
Ye Jun (叶军), He Wei (何为), Hu Bo (胡泊), Tang Jin (汤进), Zhang Yong-Sheng (张永圣), Zhang Xiang-Qun (张向群), Chen Zi-Yu (陈子瑜), Cheng Zhao-Hua (成昭华). Chin. Phys. B, 2015, 24(2): 027505.
[14] Dynamics of magnetic skyrmions
Liu Ye-Hua (刘冶华), Li You-Quan (李有泉). Chin. Phys. B, 2015, 24(1): 017506.
[15] Effect of CoSi2 buffer layer on structure and magnetic properties of Co films grown on Si (001) substrate
Hu Bo (胡泊), He Wei (何为), Ye Jun (叶军), Tang Jin (汤进), Syed Sheraz Ahmad, Zhang Xiang-Qun (张向群), Cheng Zhao-Hua (成昭华). Chin. Phys. B, 2015, 24(1): 017502.
No Suggested Reading articles found!