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Temperature stepped raising during formation of solid epitaxial films of superconductors YBa2Cu3O7-x to increase current carrying capacity of VTSP second generation bands
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TEMPERATURE STEPPED RAISING DURING FORMATION OF SOLID EPITAXIAL FILMS OF SUPERCONDUCTORS YBA2CU3O7-X TO INCREASE CURRENT CARRYING CAPACITY OF VTSP SECOND GENERATION BANDS
UDK 53 Физика
Kulikov Ivan 1
Krylova Tatyana 2
Chernykh Maria 3
Chernykh Igor 4
Zanaveskin Maksim 5
Authors:
1.  “Kurchatov Institute” National Research Center (Research Engineer)

Moskva, Moscow, Russian Federation
2.  “Kurchatov Institute” National Research Center (Research Engineer)

Moskva, Moscow, Russian Federation
3.  “Kurchatov Institute” National Research Center (Research Engineer)

Moskva, Moscow, Russian Federation
4.  “Kurchatov Institute” National Research Center (laboratoriya tverdotel'nyh struktur, nachal'nik)

Moskva, Moscow, Russian Federation
5.  “Kurchatov Institute” National Research Center (otdel prikladnyh nanoelektronnyh struktur, nachal'nik)

Moskva, Moscow, Russian Federation
Type:
Article
DOI:
https://doi.org/10.12737/article_59f074a5b16728.41367086
Pages:
from 3 to 9
Status:
Published
Received:
24.10.2017
Accepted:
25.10.2017
Published:
25.10.2017
Subject area:
UDK 53 Физика
Language:
Russian, English
Keywords:
high temperature superconductivity, epitaxial films, pulse laser deposition, VTSP second generation film.
Abstract and keywords
Abstract (English):
A method for the high density conservation of critical current in VTSP second generation films is offered which is based on the temperature stepped raising during the formation of solid epitaxial VTSP films. This method allows inhibiting a growth of a-directed crystals at the formation of a superconducting layer up to 2 mkm thick.

Keywords:
high temperature superconductivity, epitaxial films, pulse laser deposition, VTSP second generation film.
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References

1. Foltyn S.R. et al. Materials science challenges for high-temperature superconducting wire // Nature materials. 2007. V. 6.no. 9.pp. 631-642.

2. Kang B.W. et al. Comparative Study of Thickness Dependence of Critical Current Density of YBa2Cu3O7-δ on (100) SrTiO3 and on Rolling-assisted Biaxially Textured Substrates //Journal of materials research. 2002. V. 17.no. 07. pp. 1750-1757.

3. Shiohara Y. et al. Present status and future prospect of coated conductor development and its application in Japan // Superconductor Science and Technology. 2008. V. 21. no. 3. pp. 034002.

4. Jia Q.X. et al. High-temperature superconducting thick films with enhanced supercurrent carrying capability //Applied physics letters. 2002. T. 80. no. 9. pp. 1601-1603.

5. Ibi A. et al. Development of long REBCO coated conductors with artificial pinning centers by using MPMT-PLD method // Physica C: Superconductivity. 2008. V. 468. no. 15. pp. 1514-1517.

6. Chernykh, I.A. et al. Seed layers on RABiTS substrates for VTSP second generation wires // Letters to JTF. 2012. Vol.38. Edition 18. pp. 53-59.

7. Xu Y. High J c Epitaxial YBa2Cu3O7-δ Films Through a Non-Fluorine Approach for Coated Conductor Applications: - University of Cincinnati, 2004.

8. Ibi A. et al. Development of long YBCO coated conductors by IBAD-PLD method //Physica C: Superconductivity and its applications. 2006. V. 445. pp. 525-528.

9. Bauer M., Semerad R., Kinder H. YBCO films on metal substrates with biaxially aligned MgO buffer layers // IEEE transactions on applied superconductivity. 1999. V. 9. no. 2. pp. 1502-1505.

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