THE ELECTRON-BEAM IRRADIATION ON THE HIGH TEMPERATURE SUPERCONDUCTING THIN FILMS: A NUMERICAL SIMULATION OF THE LOW TEMPERATURE SCANNING ELECTRON MICROSCOPY

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

Abstract

Abstract Low-temperature scanning electron microscopy (LTSEM) is a promising measuring technique for probing the spatial distribution of the superconducting properties of the high-temperature superconducting (HTS) thin films. A theoretical analysis of the electron-beam irradiation on the HTS thin films in the LTSEM has been carried out. An inhomogeneously distributed grain array model has been applied in the analysis, and some numerical sim-ulations have been carried out on the electron-beam induced voltage (EIV) signals in the LTSEM experiments. The comparisons of our numerical results with the LTSEM experi-mental data indicate that it is quite reasonable to use a two-dimensional Josephson junction array for stimulating the inhomogeneous HTS thin film sample. Our numerical results also show that the EIV signals are influenced by the electron-beam power used in the LTSEM, and a reduction of the electron-beam power is suggested in order to eliminate the errors in estimating the local values of critical temperature T_c and critical current I_c by the sample temperature and the bias current at which the first EIV signal occurs.

Received: 26 May 1994
Accepted manuscript online:

PACS:	74.78.Bz
	74.25.Sv	(Critical currents)
	61.80.Fe	(Electron and positron radiation effects)
	74.50.+r	(Tunneling phenomena; Josephson effects)
	74.10.+v	(Occurrence, potential candidates)
	68.37.Hk	(Scanning electron microscopy (SEM) (including EBIC))

Fund: Project supported by the National Natural Science Foundation of China and by the National Center for Research and Development on Superconductivity of China.

Cite this article:

FENG YI-JUN (冯一军), CHENG QI-HENG (程其恒), WU PEI-HENG (吴培亨) THE ELECTRON-BEAM IRRADIATION ON THE HIGH TEMPERATURE SUPERCONDUCTING THIN FILMS: A NUMERICAL SIMULATION OF THE LOW TEMPERATURE SCANNING ELECTRON MICROSCOPY 1995 Acta Physica Sinica (Overseas Edition) 4 301

[1]	Molecular beam epitaxy and superconductivity of stoichiometric FeSe and K_xFe_2-ySe₂ crystalline films Wang Li-Li (王立莉), Ma Xu-Cun (马旭村), Chen Xi (陈曦), Xue Qi-Kun (薛其坤). Chin. Phys. B, 2013, 22(8): 086801.
[2]	Simulation of dielectric resonator for high-T_c radio frequency superconducting quantum interference device Gao Ji(高吉), Yang Tao(杨涛), Ma Ping(马平), and Dai Yuan-Dong(戴远东). Chin. Phys. B, 2010, 19(6): 067402.
[3]	Growth and transport features of electron-doped superconductor Pr_1-xLaCe_xCuO_4-$\delta$ thin films Gao Li-Juan(高丽娟), Jin Kui(金魁), Zhao Li(赵力), Wu Bin-Xin(吴彬新), Li Wei-Yong(李位勇), Zhu Bei-Yi(朱北沂), Cao Li-Xin(曹立新), Xu Bo(许波), Qiu Xiang-Gang(邱详冈), and Zhao Bai-Ru(赵柏儒). Chin. Phys. B, 2009, 18(5): 2054-2057.
[4]	Study on reaction mechanism of YBa₂Cu₃O_7-x film by TFA-MOD process Ding Fa-Zhu(丁发柱), ü Xu-Dong(吕旭东), Gu Hong-Wei(古宏伟), Li Tao(李弢), and Cao Jiang-Li(曹江利). Chin. Phys. B, 2009, 18(4): 1631-1636.
[5]	A comparative study of YBa₂Cu₃O_7-$\delta$/YSZ bilayer films deposited on silicon-on-insulator substrates with and without HF pretreatment Wang Ping(王萍), Li Jie(李洁), Chen Ying-Fei(陈莺飞), Li Shao(李绍), Wang Jia(王佳), Xie Ting-Yue(解廷月), and Zheng Dong-Ning(郑东宁). Chin. Phys. B, 2009, 18(4): 1679-1683.
[6]	A study on the microwave responses of YBCO and TBCCO thin films by coplanar resonator technique Shi Li-Bin(史力斌), Wang Yun-Fei(王云飞), Ke Yu-Yang(柯于洋), Zhang Guo-Hua(张国华), Luo Sheng(罗胜), Zhang Xue-Qiang(张雪强), Li Chun-Guang(李春光), Li Hong(黎红), and He Yu-Sheng(何豫生) . Chin. Phys. B, 2007, 16(10): 3036-3041.
[7]	Research on CeO₂ cap layer for YBCO-coated conductor Shi Dong-Qi(石东奇), Ma Ping(马平), Ko Rock-Kil, Kim Ho-Sup, Chung Jun-Ki, Song Kyu-Jeong, and Park Chan. Chin. Phys. B, 2007, 16(7): 2142-2147.
[8]	Ground state of a superconducting π ring array under external magnetic fields Li Zhuang-Zhi(李壮志), Feng Yun(冯运), Wang Fu-Ren(王福仁), and Dai Yuan-Dong(戴远东). Chin. Phys. B, 2007, 16(5): 1450-1458.
[9]	High-T_c planar SQUID gradiometer for eddy current non-destructive evaluation Zhang Ming-Jian(张鸣剑), Lang Pei-Lin(郎佩琳), Peng Zhi-Hui(彭智慧), Chen Ying-Fei(陈莺飞), Chen Ke(陈珂), and Zheng Dong-Ning(郑东宁). Chin. Phys. B, 2006, 15(8): 1903-1908.
[10]	Anisotropy of the upper critical field in c-axis oriented MgB₂ thin films Wang Shu-Fang (王淑芳), Liu Zhen (刘震), Zhu Ya-Bin (朱亚彬), Zhou Yue-Liang (周岳亮), Chen Zheng-Hao (陈正豪), Lü Hui-Bin (吕惠宾), Yang Guo-Zhen (杨国桢). Chin. Phys. B, 2004, 13(7): 1120-1123.
[11]	Superconductivity and x-ray photoemission study of MgB₂ thin films Wang Shu-Fang (王淑芳), Zhou Yue-Liang (周岳亮), Zhu Ya-Bin (朱亚彬), Zhang Qin (张芹), Xie Kan (谢侃), Chen Zheng-Hao (陈正豪), Lü Hui-Bin (吕惠宾), Yang Guo-Zhen (杨国桢). Chin. Phys. B, 2002, 11(12): 1300-1302.
[12]	INFLUENCE OF PINNING CENTRE DISTRIBUTION ON THE DYNAMICS OF TWO-DIMENSIONAL VORTEX SYSTEM Luo Meng-bo (罗孟波), Jiao Zheng-kuan (焦正宽), Ren Qing-bao (任清褒), Chen Qing-hu (陈庆虎). Chin. Phys. B, 2001, 10(3): 229-233.
[13]	Development of 1.3GHz high-T-c rf SQUID Liu Xin-Yuan (刘新元), Xie Fei-Xiang (谢飞翔), Meng Shu-Chao (孟树超), Dai Yuan-Dong (戴远东), Li Zhuang-Zhi (李壮志), Ma Ping (马平), Yang Tao (杨涛), Nie Rui-Juan (聂瑞娟), Wang Fu-Ren (王福仁), . Chin. Phys. B, 2004, 13(1): 100-104.
[14]	NON-EQUILIBRIUM MICROWAVE RESPONSE OF Yba₂Cu₃O_7-$\delta$ GRANULAR THIN FILMS UNDER MAGNETIC FIELDS ABBAS A.ESSA, XU KE-XI (徐克西), ZHOU SHI-PING (周世平), BAO JIA-SHAN (鲍家善). Chin. Phys. B, 1999, 8(11): 860-868.
[15]	SIMS STUDY OF OXYGEN SPIRAL DIFFUSION C-TEXTURED Yba₂Cu₃O_7-$\delta$/SrTiO₃ EPITAXIAL THIN FILM CAI ZHEN (蔡震), JIN XUE-JUN (金学军). Chin. Phys. B, 1998, 7(12): 912-918.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

THE ELECTRON-BEAM IRRADIATION ON THE HIGH TEMPERATURE SUPERCONDUCTING THIN FILMS: A NUMERICAL SIMULATION OF THE LOW TEMPERATURE SCANNING ELECTRON MICROSCOPY

Cite this article:

Online attention