制备高质量的MgB2薄膜是实现MgB2超导电子器件应用的前提和基础.我们用电子束蒸发B膜和Mg/B多层膜为前驱然后后退火的方法,分别在高温区(~900℃)和中温区(~750℃)成功获得了MgB2超导薄膜.改变退火的Ar气压条件,采用B膜前驱退火的样品Tc可达到38K以上,转变宽度0.3K.Mg/B多层膜的结果尽管Tc稍低(Tc~35K),但薄膜表面更加均匀,且避免了高温下Mg蒸汽污染的问题.对于两种前驱退火中观察到的完全不同的退火气压影响,我们认为是与其各自的超导成相过程相联系的,在此基础上我们对退火气压效应给出了自己的分析和解释,为今后进一步细致研究退火过程中的薄膜生长机制提供了参考.
参考文献
| [1] | J Nagamatsu et al.[J].Nature,2001,410:63. |
| [2] | C Buzea et al.Supercond[J].Science Technology,2001,14:115. |
| [3] | M Naito;K Ueda .[J].Superconductor Science and Technology,2004,17:1. |
| [4] | X H Zeng.[J].Nature Materials,2002:35. |
| [5] | B H Moeckly;W S Ruby.[M].unpublished |
| [6] | H Shimakage et al.[J].Applied Physics Letters,2005,86:072512. |
| [7] | K Ueda et al.[J].Applied Physics Letters,2005,86:177502. |
| [8] | W N Kang et al.[J].Science,2001,292:1521. |
| [9] | S Y Lee et al.[J].Physical Review B,2005,71:104514. |
| [10] | D V Shantsev et al.[J].Physical Review B,2005,72:024541. |
| [11] | M. Paranthaman;C. Cantoni;H. Y. Zhai;H. M. Christen;T. Aytug;S. Sathyamurthy;E. D. Specht;J. R. Thompson;D. H. Lowndes;H. R. Kerchner;D. K. Christen .Superconducting MgB_(2) films via precursor postprocessing approach[J].Applied physics letters,2001(23):3669-3671. |
| [12] | S. D. Bu;D. M. Kim;J. H. Choi;J. Giencke;E. E. Hellstrom;D. C. Larbalestier;S. Patnaik;L. Cooley;C. B. Eom;J. Lettieri;D. G. Schlom;W. Tian;X. Q. Pan .Synthesis and properties of c-axis oriented epitaxial MgB_(2) thin films[J].Applied physics letters,2002(10):1851-1853. |
| [13] | A Plecenik et al.[J].PHYSICA C,2001,363:224. |
| [14] | S F Wang;S Y Dai;Y L Zhou .Superconducting MoB_2 thin films grown by pulsed laser deposition on Al_2O_3(0001) and MgO(100) substrates[J].Superconductor Science & Technology,2001(11):885-887. |
| [15] | V Ferrando;S Amoruso;E Bellingeri .Growth methods of c-axis oriented MgB_2 thin films by pulsed laser deposition[J].Superconductor Science & Technology,2003(2):241-245. |
| [16] | S H Moon et al.[J].Superconductor Science and Technology,2004,17:15. |
| [17] | A T Matveev;J Albrecht;M Konuma .Highly homogeneous MgB_2 films prepared by a new post-annealing process[J].Superconductor Science & Technology,2005(10):1313-1316. |
| [18] | Z K Liu et al.[J].Applied Physics Letters,2001,78:3678. |
| [19] | See and reference therein[Z]. |
| [20] | D H A Blank et al.[J].Applied Physics Letters,2001,79:394. |
| [21] | Y Zhao et al.[J].Superconductor Science and Technology,2004,17:482. |
| [22] | X. H. Zeng;A. Sukiasyan;X. X. Xi;Y. F. Hu;E. Wertz;Qi Li;W. Tian;H. P. Sun;X. Q. Pan;J. Lettieri;D. G. Schlom;C. O. Brubaker;Zi-Kui Liu;Qiang Li .Superconducting properties of nanocrystalline MgB_(2) thin films made by an in situ annealing process[J].Applied physics letters,2001(12):1840-1842. |
| [23] | 冯庆荣,曹科,徐军,郭建栋,王昕,熊光成,高政祥,徐洪清,佘冬玲,蔡杉,李占一,董妍.750℃和850℃下MgB2纤维超导体的制备及性能研究[J].低温物理学报,2002(02):96-101. |
| [24] | 沈庆飞,谢旭,冯庆荣,徐晓林,李春光,郑萍,高政祥,何豫生.MgB2超导线I-V曲线的测量[J].低温物理学报,2002(02):115-118. |
| [25] | 王新峰,郭荆璞,贾璋,吕莹,朱萌,王晓楠,陈晋平,徐军,冯庆荣.初探混合物理化学气相沉积法(HPCVD)制备不锈钢衬底MgB2超导厚膜样品[J].低温物理学报,2004(04):344-349. |
| [26] | 该气压值的计算由文献中的相图公式给出,logP(Torr)=-7561/T/K+8.673.本文中用到的主要数据有900℃,P=22.4 kPa;800℃,P=5.63 kPa;750℃,P=2.55 kPa[Q]. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%