Email this article 
THE INFLUENCE OF IRRADIATION OF XE IONS WITH ENERGY 167 MEV ON SUPERCONDUCTING PROPERTIES OF 2G HTS WIRES
- Authors: Degtyarenko P.N.1,2, Skuratov V.A.3, Vasil'ev A.L.4,5, Ovcharov A.V.4, Petrzhik A.M.2,6, Semina V.K.3, Gavrilkin C.Y.7, Novikov M.S.3, Malyavina A.Y.8, Amelichev V.A.2, Tsvetkov A.Y.7
-
Affiliations:
- Joint Institute for high temperature of RAS
- S-innovations LLC
- Joint institute for nuclear research
- National research center “Kurchatov institute”
- National Research University MPTI
- Kotel’nikov Institute of Radio Engineering and Electronics of RAS
- Lebedev Physical Institute of Russian Academy of Science
- National Research Nuclear University MEPhI
- Issue: Vol 165, No 6 (2024)
- Pages: 827-832
- Section: Articles
- URL: https://journals.rcsi.science/0044-4510/article/view/259043
- DOI: https://doi.org/10.31857/S0044451024060099
- ID: 259043
Cite item
Abstract
Systematic studies of 2G HTS wires irradiated by high-energy 167 MeV Xe ions and fluences up to 1·1012 cm−2 have been carried out. The optimal fluence value (the number of particles passing through 1 cm2 of the sample surface) for obtaining the maximum critical current at different temperatures and external magnetic fields has been determined. An increase in the external magnetic field leads to a shift of the critical current peak towards higher fluences in the whole temperature range. The results of microstructural investigations by transmission electron microscopy and X-ray diffraction methods are given. It is shown that because of irradiation ion tracks with a diameter of about 5-8 nm are formed, acting as effective pinning centers. X-ray diffraction analysis indicates a decrease in texture sharpness under the influence of irradiation.
About the authors
P. N. Degtyarenko
Joint Institute for high temperature of RAS; S-innovations LLC
Email: degtyarenkopn@gmail.com
Russian Federation, 125412, Moscow; 117246, Moscow
V. A. Skuratov
Joint institute for nuclear research
Email: skuratov@jinr.ru
Russian Federation, 141989, Dubna, Moscow region
A. L. Vasil'ev
National research center “Kurchatov institute”; National Research University MPTI
Email: degtyarenkopn@gmail.com
Russian Federation, 123182, Moscow; 141701, Dolgoprudny, Moscow region
A. V. Ovcharov
National research center “Kurchatov institute”
Email: ovcharov.91@gmail.com
Russian Federation, 123182, Moscow
A. M. Petrzhik
S-innovations LLC; Kotel’nikov Institute of Radio Engineering and Electronics of RAS
Email: a.petrzhik@s-innovations.ru
Russian Federation, 117246, Moscow; 125009, Moscow
V. K. Semina
Joint institute for nuclear research
Email: degtyarenkopn@gmail.com
Russian Federation, 141989, Dubna, Moscow region
C. Yu. Gavrilkin
Lebedev Physical Institute of Russian Academy of Science
Email: gavrs@sci.lebedev.ru
Russian Federation, 119991, Moscow
M. S. Novikov
Joint institute for nuclear research
Email: msnovikov@jinr.ru
Russian Federation, 141989, Dubna, Moscow region
A. Yu. Malyavina
National Research Nuclear University MEPhI
Email: ayu.malyavina@gmail.com
Russian Federation, 115409, Moscow
V. A. Amelichev
S-innovations LLC
Email: degtyarenkopn@gmail.com
Russian Federation, 117246, Moscow
A. Yu. Tsvetkov
Lebedev Physical Institute of Russian Academy of Science
Author for correspondence.
Email: degtyarenkopn@gmail.com
Russian Federation, 119991, Moscow
References
- A. Markelov, A. Valikov, V. Chepikov, A. Petrzhik, B. Massalimov, P. Degtyarenko, R. Uzkih, A. Soldatenko, A. Molodyk, K. Sim, and S. Hwang, Prog. Supercond. Cryog. 21, 29 (2019).
- A. Malozemoff, Annu. Rev. Mater. Res. 42, 373 (2012).
- A. Abrikosov, J. Phys. Chem. Solids 2, 199 (1957).
- G. Blatter, M. Feigel’man, V. Geshkenbein, A. Larkin, and V. Vinokur, Rev. Mod. Phys. 66, 1125 (1994).
- V. Selvamanickam, G. Carota, M. Funk, N. Vo, and P. Haldar, IEEE Trans. Appl. Supercond. 11, 3379 (2001).
- A. Catana, R. Broom, J. Bednorz, J. Mannhart, and D. Schlom, Appl. Phys. Lett. 60 1016 (1992).
- J. MacManus-Driscoll, S. Foltyn, Q. Jia, H. Wang, A. Serquis, B. Maiorov, L. Civale, Y. Lin, M. Hawley, M. Maley, and D. Peterson, Appl. Phys. Lett. 84, 5329 (2004).
- N. Strickland, S. Wimbush, J. Kennedy, M. Ridgway, E. Talantsev, and N. Long, IEEE Trans. Appl. Supercond. 25, 1 (2015).
- A. Erb, E. Walker, and R. Fl¨ukiger, Physica C Supercond. 258, 9 (1996).
- C. Varanasi, P. Barnes, J. Burke, L. Brunke, I. Maartense, T. Haugan, E. Stinzianni, K. Dunn, and P. Haldar, Supercond. Sci. Technol. 19, 37 (2006).
- A. Molodyk, S. Samoilenkov, A. Markelov, P. Degtyarenko, S. Lee, V. Petrykin, M. Gaifullin, A. Mankevich, A. Vavilov, B. Sorbom, J. Cheng, S. Garberg, L. Kesler, Z. Hartwig, S. Gavrilkin, A. Tsvetkov, T. Okada, S. Awaji, D. Abraimov, A. Francis, G. Bradford, D. Larbalestier, C. Senatore, M. Bonura, A. Pantoja, S. Wimbush, N. Strickland, and A. Vasiliev, Sci Rep. 11, 2084 (2021).
- E. Suvorova, P. Degtyarenko, I. Karateev, A. Ovcharov, A. Vasiliev, V. Skuratov, and P. Buffat, J. Appl. Phys. 126, 145106 (2019).
- E. Suvorova, P. Degtyarenko, A. Ovcharov, and A. Vasiliev, J. Surf. Investig. 16, 112 (2022).
- C. Bean, Phys. Rev. Lett. 8, 250 (1962).
- D. Larbalestier, A. Gurevich, D. Feldmann, and A. Polyanskii, Nature 414, 368 (2001).
Supplementary files
