Thermochemistry of MgB2 thin film synthesis

Jihoon Kim; Singh R.K.; Newman N.; Rowell J.M.

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Thermochemistry of MgB2 thin film synthesis

机译：MgB2薄膜合成的热化学

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We have investigated the thermodynamic and kinetic barriers involved in the synthesis of MgB2 films. This work refines our initial conjectures predicting optimal MgB2 thin film growth conditions as a consequence of the unusually large kinetic barrier to MgB2 decomposition. The small Mg sticking coefficient at temperatures greater than 300°C prevents high temperature synthesis with traditional vacuum growth methods. However, as a result of the large kinetic barrier to MgB2 decomposition, in-situ thermal processing can be used to enhance the crystallinity and the superconductivity of MgB2 films. We used these methods to produce MgB2 thin films with relatively high transition temperatures (～37 K) by pulsed laser deposition (PLD).

机译：我们已经研究了MgB2薄膜合成中涉及的热力学和动力学障碍。这项工作完善了我们的初步推测，预测了由于MgB2分解异常大的动力学势垒而导致的最佳MgB2薄膜生长条件。在高于300°C的温度下，很小的Mg吸附系数阻止了传统真空生长方法的高温合成。但是，由于对MgB2分解具有很大的动力学势垒，可以使用原位热处理来增强MgB2膜的结晶度和超导性。我们使用这些方法通过脉冲激光沉积（PLD）来生产具有较高转变温度（〜37 K）的MgB2薄膜。

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来源
《IEEE Transactions on Applied Superconductivity》 |2003年第2期|p.3238-3241|共4页
作者
Jihoon Kim; Singh R.K.; Newman N.; Rowell J.M.;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
关键词
magnesium compounds; pulsed laser deposition; superconducting thin films; superconducting transition temperature; type II superconductors; 300 degC; 37 K; crystallinity; high transition temperatures; kinetic barriers; pulsed laser deposition; small Mg sticking coef;

机译：镁化合物;脉冲激光沉积;超导薄膜;超导转变温度;II型超导体;300℃;37 K;结晶度;高转变温度;动力学势垒;脉冲激光沉积;Mg附着系数小;

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专利

1. Monotonic decrease of T(c)s with thinning of the superconducting MgB2 layer in MgB2/Ni and MgB2/B alternately-layered thin films [J] . Doi T, Kitaguchi H, Hata S, Superconductor Science & Technology . 2007,第12期

机译：MgB2 / Ni和MgB2 / B交替多层薄膜中超导MgB2层变薄导致T（c）s单调减少
2. MgB2 thin films and MgB2/AlN/MgB2 SIS junctions [J] . Shimakage H, Wang Z Physica, C. Superconductivity and its applications . 2006,第1a2期

机译：MgB2薄膜和MgB2 / AlN / MgB2 SIS结
3. In situ synthesis of MgB2 thin films for tunnel junctions [J] . Schneider R, Geerk J, Ratzel F, Applied Physics Letters . 2004,第22期

机译：隧道结MgB2薄膜的原位合成
4. Preparing Ultrathin MgB2 Thin Film by Ex-situ Annealing of Mg-B Precursor Film [C] . Qian Dai, Ruorun Ma, Qingrong Feng, Chinese materials congress . 2013

机译：Mg-B前体膜的非原位退火制备超薄MgB2薄膜
5. Modification of Iron Pnictide and MgB2 Thin Films Using Focused He+ Ion Beam Irradiation for Superconducting Devices [D] . Kasaei, Leila. 2019

机译：用于超导装置的聚焦HE +离子束照射的铁预态和MGB2薄膜的修饰
6. Enhancement of the critical current density in FeO-coated MgB2 thin films at high magnetic fields [O] . Andrei E Surdu, Hassan H Hamdeh, I A Al-Omari, 2015

机译：FeO包覆的MgB2薄膜在高磁场下的临界电流密度的提高
7. Thermochemistry of MgB2 Thin Film Synthesis [O] . Kim, Jihoon, Singh, Rakesh K., Newman, Nathan, 2002

机译：mgB2薄膜合成的热化学

Thermochemistry of MgB2 thin film synthesis

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