Ing. Frolek Lubomír

Skarba, M., Pekarčíková, M., Frolek, L., Cuninková, E., and Necpal, M.: Thermal cycling of (RE)BCO-based superconducting tapes joined by lead-free solders, Materials 14 (2021) 1052.

1. Yang, C.M.: Materials 15 (2022) 1571.

Michalcová, E., Behúlová, M., Vojenčiak, M., Frolek, L., Šouc, J., Skarba, M., Pekarčíková, M., Drienovsky, M., and Gömöry, F.: Structural modeling of REBCO coated conductor tapes in TORT cables, IEEE Trans. Applied Supercond. 28 (2018) 4801105.

1. Shin, H.-S.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 4.
2. Tanaka, Y.: IEEE Trans. Applied Supercond. 33 (2023) 6602404.

Pekarčíková, M., Michalcová, E., Frolek, L., Šouc, J., Gogola, P., Drienovsky, M., Skarba, M., Mišík, J., and Gömöry, F.: Effect of mechanical loading on coated conductor tapes due to winding onto round cables, IEEE Trans. Applied Supercond. 28 (2018) 8400505.

1. Jin, H.: Nuclear Fusion 60 (2020) 096028.
2. Yin, H.N.: J. Polymer Engn. 41 (2021) 329.
3. Gao, P.F.: IEEE Trans. Applied Supercond. 32 (2022) 6600305.
4. Shi, Y.Y.: J. Supercond. Novel Magnet. 35 (2022) 647.
5. Park, S.-Y.: Energies 16 (2023) 1866.

Hong, Z., Li, W., Chen, Y., Gömöry, F., Frolek, L., Zhang, M., and Sheng, J.: Design optimization of superconducting coils based on asymmetrical characteristics of REBCO tapes, Physica C 550 (2018) 74-77.

1. Jiang, Z.: J. Phys. Comm. 3 (2019) UNSP 095017.
2. Lee, S.H.: Sci Adv. Mater. 12 (2020) 1810.
3. Jiang, Z.: J. Phys. Comm.‏ 5 (2021) 025003.
4. Sun, Y.M.: J. Applied Phys. 130 (2021) 083902.
5. You, S.R.: IEEE Access 9 (2021) 130968.
6. Gao, P.F.: Supercond. Sci Technol. 35 (2022) 065009.
#   7.  Gao, P.: Supercond. 1 (2022) 100002.
#    8. Zhang, Z.: Supercond. 1 (2022) 100005 .
9. Wu, Y.: IEEE Trans. Transport. Electrif. 9 (2023) 1590.

Drienovsky, M., Michalcová, E., Pekarčíková, M., Palcut, M., Frolek, L., Gogola, P., Jančuška, I., Mišík, J., and Gömöry, F.: Induction soldering of coated conductor high-temperature superconducting tapes with lead-free solder alloys, IEEE Trans. Applied Supercond. 28 (2018) 6601305.

1. Zhang, S.: IEEE Trans. Applied Supercond. 29 (2019) 8800807.
2. Pan, Y.: IEEE Trans. Applied Supercond. 29 (2019) 8800305.
3. Sonawane, P.: Adv. Mater. Sci Engn. 2020 (2020) 7612186.
4. Yang, G.S.: Rare Metal Mater. Engn. 50 (2021) 511.
5. Ghaderi, D.: Microelectron. Reliab. 118 (2021) 114046.
6. Shamoto, S.I.: Mater. Res. Express 8 (2021) 076303.
#     7. Kukartsev, V.V.: J. Phys.: Conf. Ser. 2094 (2021) 042020.
#     8. Kukartsev, V.A.: J. Phys.: Conf. Ser. 2094 (2021) 042007.
#     9. Tynchenko, V.: J. Applied Engn. Sci 19 (2021) 424.
10. Huang, Z.Y.: Cryogenics 122 (2022) 103422.
11. Tanaka, Y.: IEEE Trans. Applied Supercond. 33 (2023) 6602404.

Mitchell-Williams, T.B., Baskys, A., Guo, Y., Hopkins, S.C., Bangert, U., Molodyk, A., Petrykin, V., Gömöry, F., Florek, L., and Glowacki, B.A.: Spark-discharge plasma as a method to produce low AC loss multifilamentary (RE)Ba2Cu3O7 coated conductors, IEEE Trans. Applied Supercond. 27 (2017) 5900405.

1. Wulff, A.C.: Supercond. Sci Technol. 34 (2021) 053003.

Gömöry, F., Vojenčiak, M., Solovyov, M., Frolek, L., Šouc, J., Seiler, E., Bauer, M., and Falter, M.: AC susceptibility as a characterization tool for coated conductor tapes, Supercond. Sci Technol. 30 (2017) 114001.

1. Miu, L.: Physica C 555 (2018) 1.
2. Sun, Y.: IEEE Trans. Applied Supercond. 29 (2019) 5900904.
3. Smith, A. P.: J. Phys. Conf. Ser.‏ 1559 (2020) 012064.

Gömöry, F., Šouc, J., Vojenčiak, M., Terzioglu, R., and Frolek, L.: Design and testing of coils wound using the Conductor-On-Round-Tube (CORT) cable, IEEE Trans. Applied Supercond. 27 (2017) 4600305.

1. Wang, Y.: Supercond. Sci Technol. 32 (2019) 025003.
2. Wang, Y.: J. Phys. D 52 (2019) 345303.
3. Gerling, D.: Elektrotechnik Informationstechnik 136 (2019) 153.
4. De Marzi, G.: Supercond. Sci Technol. 34 (2021) 035016.
5. Wulff, A.C.: Supercond. Sci Technol. 34 (2021) 053003.
6. Li, S.: IEEE Trans. Applied Supercond. 31 (2021) 5901405.
7. Zhang, S.L.: Physica C 603 (2022) 1354174.

Sheng, J., Vojenčiak, M., Terzioglu, R., Frolek, L., and Gömöry, F.: Numerical study on magnetization characteristics of superconducting conductor on round core cables, IEEE Trans. Applied Supercond. 27 (2017) 4800305.

1. Fu, S.: IEEE Trans. Applied Supercond. 28 (2018) 4802005.
2. Wang, K.: Physica C 553 (2018) 65.
3. Wang, M.: IEEE Trans. Applied Supercond. 29 (2019) 5900105.
4. Wang, Y.: Supercond. Sci Technol. 32 (2019) 025003.
6. Yagotintsev, K.: Supercond. Sci Technol. 33 (2020) 085009.
7. Shen, B.: Supercond. Sci Technol. 33 (2020) 033002.
8. Wang, Y.: Physica C 579 (2020) 1353770.
9. Higashi, Y.: IEEE Trans. Applied Supercond. 30 (2020) 8200207.
10. Liu, R.: IEEE Trans. Applied Supercond. 30 (2020) 5900305.
#   11. Shen, B.: IEEE Inter. Conf. Applied Supercond. Electromag. Dev. – ASEMD 2020, no. 9276306.
#   12. Shen, B.: IEEE Inter. Conf. Applied Supercond. Electromag. Dev. – ASEMD 2020, no. 9276202.
13. Yan, Y.F.: IEEE Access 9 (2021) 49649.
14. Zhang, H.Y.: Energies 14 (2021) 2234.
15. Wang, X.L.: Supercond. Sci Technol. 34 (2021) 065007.
16. Yang, J.B.: IEEE Trans. Applied Supercond. 31 (2021) 5901504.
17. Li, X.H.: IEEE Trans. Applied Supercond. 31 (2021) 4804105.
18. Li, K.: IEEE IAS Indust. Commercial Power System Asia, I and CPS Asia 2021, pp. 551.
19. Yang, J.B.: J. Supercond. Novel Magnetism 35 (2022) 57.
20. Sogabe, Y.: IEEE Trans. Applied Supercond. 32 (2022) 4800505.
21. Fareed, M.U.: IEEE Trans. Applied Supercond. 32 (2022) 8200205.
22. Wang, S.J.: Supercond. Sci Technol. 35 (2022) 065013.
23. Clegg, M.: IEEE Trans. Applied Supercond. 32 (2022) 6600906.
24. Xiang, B.: High Voltage 7 (2022) 483.
25. Yan, J.T.: Supercond. Sci Technol. 35 (2022) 115006.
26. Peng, S.S.:  Energies 15 (2022) 8893.
27. Qiao, Y.K.: IEEE Access 11 (2023) 797.
28. Li, Q.Z.: IEEE Trans. Applied Supercond. 33 (2023) 4800207.
29. Wu, JF.: Acta Mechanica Solida Sinica 36 (2023) 418.

Šouc, J., Gömöry, F., Vojenčiak, M., Seiler, E., Kováč, J., and Frolek, L.: Superconducting HTS coil made from round cable cooled by liquid nitrogen flow, Supercond. Sci Technol. 30 (2017) 105014.

1. Wang, X.: Supercond. Sci Technol. 31 (2018) 045007.
2. Pardo, E.: IEEE Trans. Applied Supercond. 29 (2019) 5202505.
3. Gerasimenko, A.A.: IEEE Trans. Applied Supercond. 31 (2021) 3800504.
4. Fareed, M.U.: IEEE Trans. Applied Supercond. 32 (2022) 8200205.

Michalcová, E., Gömöry, F., Frolek, L., Drienovský, M., Pekarčíková, M., Skarba, M., Mišík, J., and Janovec, J.: Joining of CC tapes with lead-free solders, IEEE Trans. Applied Supercond. 26 (2016) 8801104.

1. Pan, Y.: IEEE Trans. Applied Supercond. 29 (2019) 8800305.
2. Yang, G.S.: Rare Metal Mater. Engn. 50 (2021) 511.
3. Yang, C.M.: Materials 15 (2022) 1571.

Pardo, E., Šouc, J., and Frolek, L.Electromagnetic modelling of superconductors with a smooth current–voltage relation: variational principle and coils from a few turns to large magnets, Supercond. Sci Technol. 28 (2015) 044003.

1. Zhang, Y.: Supercond. Sci Technol. 28 (2015) 085002.
2. Xia, J.: Supercond. Sci Technol. 28 (2015) 125004.
3. Mochida, A.: IEEE Trans. Applied Supercond. 26 (2016) 4702805.
4. Wang, X.: Supercond. Sci Technol. 29 (2016) 065007.
5. Sheng, J.: IEEE Trans. Applied Supercond. 26 (2016) 6600505.
6. Grilli, F.: IEEE Trans. Applied Supercond. 26 (2016) 0500408.
7. Jiang, Z.: Supercond. Sci Technol. 29 (2016) 095011.
8. Bykovsky, N.: Supercond. Sci Technol. 30 (2017) 024010.
9. Huang, C.-G.: J. Applied Phys. 121 (2017) Iss. 2.
10. Farinon, S.: Cryogenics 81 (2017) 107.
11. Gomory, F.: Supercond. Sci Technol. 30 (2017) 064005.
#     12. Zhilichev, Y.: IEEE Trans.Applied Supercond. 27 (2017) 7752840.
13. Sogabe, Y.: IEEE Trans. Applied Supercond. 28 (2018) 4700105.
14. Olm, M.: Computer Phys. Comm. 237 (2019) 154.
15. Zheng, T.: Ceramics Inter. 45 (2019) 13193.
16. Berrospe-Juarez, E.: Supercond. Sci Technol. 32 (2019) 065003.
17. Blandine, R.: Supercond. Sci Technol. 32 (2019) 044008.
18. Stenvall, A.: IEEE Trans. Applied Supercond. 29 (2019) 5901207.
19. Insinga, A.: IEEE Trans. Applied Supercond. 29 (2019) 8200704.
20. Xia, J.: Supercond. Sci Technol. 32 (2019) 095005.
21. Wang, L.: IEEE Trans. Applied Supercond. 29 (2019) 4702207.
22. Zubko, V.V.: J. Phys. Conf. Ser. 1559 (2020) 012115.
23. Insinga, A. R.: Applied Magnet. Resonan.‏ 51 (2020) 545.
#     24. Soomro, W.A.: IEEE Inter. Conf. Applied Supercond. Electromagn. Dev. – ASEMD 2020, no. 9276278.
25. Xu, A.: IEEE Trans. Applied Supercond. 31 (2021) Iss.‏ 1.
26. Vargas-Llanos, C.R.: IEEE Access 8 (2020) 208767.
27. Yan, Y.F.: IEEE Access 9 (2021) 49649.
28. Berrospe-Juarez, E.: Supercond. Sci Technol. 34 (2021) 044002.
29. Zhang, H.Y.:  Energies 14 (2021) 2234.
30. Wulff, A.C.: Supercond. Sci Technol. 34 (2021) 053003.
31. Li, G.Y.: Supercond. Sci Technol. 34 (2021) 105006.
32. Vargas-Llanos, C.R.: IEEE Trans. Applied Supercond. 31 (2021) Iss.7.
33. Wen, Z.Z.: Supercond. Sci Technol. 34 (2021) 125019.
34. Li, C.: Energy 241 (2022) 122832.
35. dos Santos, G.: IEEE Trans. Applied Supercond. 32 (2022) 5600713.
36. Huber, F.: Supercond. Sci Technol. 35 (2022) 043003
37. Li, S.: Supercond. Sci Technol. 35 (2022) 065012.
38. Wen, Z.Z.: Crystals 12 (2022) 766.
39. Zhou, W.H.: Applied Mathemat. Mechan.-Eng. Ed. 43 (2022) 1249.
40. Shi, S.J.: J. Supercond. Novel Magnetism 35 (2022) 3487.
41. Vargas-Llanos, CR.: Supercond. Sci Technol. 35 (2022) 124001.

Gömöry, F., Šouc, J., Pardo, E., Seiler, E., Soloviov, M., Frolek, L., Skarba, M., Konopka, P., Pekarčíková, M., Janovec, J., : AC loss in pancake coil made from 12mm wide ReBCO tape,. IEEE Trans. Applied Supercond. 23 (2013) 5900406.

1. Pitel, J.: Supercond. Sci Technol. 26 (2013) 125002.
2. Brambilla, R.: Supercond. Sci Technol. 27 (2014) 125010.
3. Park, J.: Cryogenics 63 (2014) 77.
 4. Jeong, S.: Cryogenics 62 (2014) 193.
5. Hu, D.: Supercond. Sci Technol. 28 (2015) 065011.
6. Krueger, P.A.C.: IEEE Trans. Applied Supercond. 25 (2015) 4801505.
7. Zermeno, V.: Supercond. Sci Technol. 28 (2015) 085004.
8. Zhang, Y.: Supercond. Sci Technol. 28 (2015) 085002.
9. Ainslie, M.D.: IEEE Trans. Applied Supercond. 25 (2015) 6965596.
10. Hu, D.: IEEE Trans. Applied Supercond. 25 (2015) 6983573.
11. Awaji, S.: IEEE Trans. Applied Supercond. 25 (2015) 6945815.
12. Hu, D.: IEEE Trans. Applied Supercond. 26 (2016) 6600906.
13. Jiang, Z.: Supercond. Sci Technol. 29 (2016) 095011.
14. Zermeno, V.M.R.: Supercond. Sci Technol. 30 (2017) 034001.
15. Jiang, Z.: IEEE Trans. Applied Supercond. 27 (2017) 5900707.
16. Ainslie, M.D.: Supercond. Sci Technol. 31 (2018) 074003.
17. Iwai, S.: IEEE Trans. Applied Supercond. 28 (2018) 4603405.
18. Liu, K.: Supercond. Sci Technol. 31 (2018) 015013.
19. Ogawa, J.: IEEE Trans. Applied Supercond. 29 (2019) 9001204.
20. Jiang, Z.: J. Phys. Comm. 3 (2019) UNSP 095017.
21. Yang, Y.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 8.
22. Zhang, H.Y.: Energies 14 (2021) 2234.
23. Inanir, F.: Physica C 587 (2021) 1353910.
24. de Oliveira, R.A.: IEEE Trans.Power Electron. 36 (2021) 13697.
25. Yetis, H.: Physica C 603 (2022) 1354161.
26. Vargas-Llanos, C.R.: Supercond. Sci Technol. 36 (2023) 045015.
27. Song, H.H.: IEEE Trans. Applied Supercond. 33 (2023) 4701806.

Frolek, L. and Šouc, J.: Measurement of AC transport current loss in different kinds of superconducting tapes and wires in liquid helium, Supercond. Sci Technol. 24 (2011) 105016.

1. Vargas-Llanos, C.R.: Supercond. Sci Technol. 36 (2023) 045015.

Frolek, L. and Šouc, J.: Measurement of current-voltage curves of superconducting tapes by means of quasi trapezoidal current impulses, IEEE Trans. Applied Supercond. 19 (2009) 3581-3584.

1. Sirois, F.: Supercond. Sci Technol. 23 (2010) 034018.
#   2. Guo, Z.-C.: Gongneng Cailiao/J. Functional Materials 41 (2010) 2041.
3. Seiler, E.: Physica C 551 (2018) 66.
#   4. Pǎtru, I.: Proc. SIELMEN 2019, no. 8905840.

Šouc, J., Gömöry, F., Vojenčiak, M., Frolek, L., Isfort, D., Ehrenberg, J., Bock, J., : AC loss of the short coaxial superconducting cable model made from ReBCO coated tapes. J. Phys. – Conf. Series 97 (2008) 012198.

1. Brambilla, R.: Supercond. Sci Technol. 21 (2008) 105008.
2. Malozemoff, A.P.: Annual Rev. Mater. Res. 42 (2012) 373.
3. Zhang, H.Y.: Energies 14 (2021) 2234.

Seiler, E. and Frolek, L.AC loss of the YBCO coated conductor in high magnetic fields. J. Phys. – Conf. Series 97 (2008) 012028. .

1. Kim, G.-H.: IEEE Trans. Applied Supercond. 23 (2013) 5202105.
2. Guillemaut, C.: Fusion Engn. Design 88 (2013) 3312.
#    3. Marchevsky, M.: Instruments 5 (2021) 27.

Frolek, L., Oravec, J., Šouc, J., : Impulse measurement of dynamic current-voltage curves of superconducting tape at various lengths and shapes of current waves. J. Phys. – Conf. Series 97 (2008) 012085.

1. Sirois, F.: IEEE Trans. Applied Supercond. 19 (2009) 3585.
2. Degtyarenko, P.N.: Low Temp. Phys. 37 (2011) 101.
3. Campbell, A.: Supercond. Sci Technol. 32 (2019) 115009.

Frolek, L., Gömöry, F., and Seiler, E.: A special sample holder for AC susceptibility measurements of superconducting samples in high magnetic fields at various temperatures, Supercond. Sci Technol. 21 (2008) 105009.

1. Perez, I.: European J. Phys. 39 (2018) 035203.

Šouc, J., Gömöry, F., Klinčok, B., Frolek, L., Vojenčiak, M., Usoskin, A., Rutt, A., : AC loss measurement of the YBCO cable model. IEEE Trans. Applied Supercond. 17 (2007) 1718-1721.

1. Ryu K.: Physica C 470 (2010) 1606.
2. Li, Z.: Physica C 471 (2011) 1554.
*   3. Emhofer, J.: PhD Thesis. Vienna: TU 2012.
4. Li, Z. Y.: IEEE Trans. Applied Supercond. 23 (2013) 5400704.
5. Mukoyama, S.: J. Phys. Conf. Ser. 897 (2017) UNSP 012021.

Frolek, L., Demenčík, E., : Measurement of AC profiles of magnetic field above HTSc tape using Hall probe technique with help of DAQ cards and triggering. IEEE Trans. Applied Supercond. 15 (2005) 3660-3663.

1. Golovashkin, A.I.: J. Experiment. Theoretical Phys. 102 (2006) 603.
2. Solovyov, M.: IEEE Trans. Applied Supercond. 19 (2009) 3049.
3. Usak, P.: Supercond. Sci Technol. 24 (2011) 045007.
4. Zhang, X.: Advanced Mater. Research 268-270 (2011) 1591.

Gömöry, F., Frolek, L., Šouc, J., : Non-uniform current distribution as the cause of false voltage signals in the ac loss measurement on a superconducting cable. Supercond. Sci Technol. 18 (2005) 780-790.

1. Nguyen, D.N.: Supercond. Sci Technol. 22 (2009) 055014.
2. Nguyen, D.N.: J. Applied Phys. 106 (2009) 093913.
3. Jiang, Z.N.: Supercond. Sci Technol. 22 (2009) 095002.
4. Jiang, Z.A.: Supercond. Sci Technol. 23 (2010) 025028.
5. Jiang, Z.: IEEE Trans. Applied Supercond. 21 (2011) 3289.
6. Nguyen, D.A.: IEEE Trans. Applied Supercond. 21 (2011) 996.
7. Jiang, Z.: Supercond. Sci Technol. 24 (2011) 065005.
8. Jiang, Z.: Physica C 471 (2011) 999.
9. Schlachter, S.I.: In: High Temperature Superconductors (HTS) for Energy Applications. Woodhead Publ. 2012. P. 69-100.
10. Jiang, Z.: IEEE Trans. Applied Supercond. 23 (2013) 5402604.
11. Nguyen, D.N.: Supercond. Sci Technol. 26 (2013) 095001.
12. Elschner, S.: IEEE Trans. Applied Supercond. 25 (2015) 5900105.

Gömöry, F., Frolek, L., Šouc, J., Grilli, F., : Phase shifts of parallel currents in a single-layer model of superconducting cables. IEEE Trans. Applied Supercond. 15 (2005) 1779-1782.

1. Ogawa, J.: IEEE Trans. Applied Supercond. 16 (2006) 115.
2. Jiang, Z.N.: Supercond. Sci Technol. 22 (2009) 095002.
3. Juul, J.S.: IEEE Trans. Applied Supercond. 21 (2011) 3599.

Frolek, L., Gömöry, F., : Influence of spread in tape properties on I–V characteristics measured on superconducting cables. Physica C 401 (2004) 227-230.

      1. Takayasu, M.: IEEE Trans. Applied Supercond. 26 (2016) 6400210.

Grilli, F., Stavrev, S., Dutoit, B., Spreafico, S., Tebano, R., Gömöry, F., Frolek, L., and Šouc, J.: Numerical modelling of a HTS cable in AC regime, Physica C 401 (2004) 176-181.

#     1. Yang, J.: Power System Technol. 28 (2004) 63.
2. Rostila, L.: Cryogenics 46 (2006) 245.
3. Del-Rosario-Calaf, G.: J. Phys.: Conf. Ser. 234 (2010) 032007.
4. Zhang, W.: J. Supercond. Novel Magnetism 32 (2019) 877.

Gömöry, F., Frolek, L., Šouc, J., Coletta, G., Spreafico, S., : Measurement of DC critical current in superconducting cable with non-uniformities. IEEE Trans. on Applied Supercond. 13 (2003) 1968.

1. Long, N.J.: J. Phys.: Conf. Series 97 (2008) 012280.
2. Lim, J.H.: IEEE Trans. Applied Supercond. 19 (2009) 1710.
3. Jiang, Z.N.: Supercond. Sci Technol. 22 (2009) 095002.
4. Jiang, Z.A.: Supercond. Sci Technol. 23 (2010) 025028.
5. Sun, J.: Physica C 471 (2011) 1313.
#    6. Barth, C.: High Temp. Supercond. Cable Concepts for Fusion Magnets. PhD Thesis. Karlsruhe: KIT Sci Publ. 2013.

Gömöry, F., Frolek, L., Šouc, J., Laudis, A., Kováč, P., Hušek, I., : Partitioning of transport AC loss in a superconducting tape into magnetic and resistive components. IEEE Trans. Applied Supercond. 11 (2001) 2967-2930.

*    1. Rabbers,, J.J.: PhD Thesis. Enschede, Twente Univ. 2001.
*    2. Schönborg, N.: PhD Thesis. Stockholm: Royal Inst. Technol. 2001.
3. Schonborg, N.: IEEE Trans. on Appl. Supercond. 11 (2001) 4078.
*    4. Stavrev, S.: PhD Thesis. Lausanne: EPFL 2002.
5. Sjostrom, M.: IEEE Trans. Appl. Supercond. 13 (2003) 1890.
6. Zhang, G.M.: Chinese Physics 12 (2003) 553.
7. Takács, S.: Physica C 401 (2004) 187.
8. Baldan, C.: IEEE Trans. Applied Supercond. 14 (2004) 863.
9. Suarez P.: J. Phys.: Conf. Series 97 (2008).
10. Suarez, P.: IEEE Trans. Applied Supercond. 19 (2009) 2395.
11. Ceballos, J.M: Emerging Trends Technol. Innov. 314 (2010) 487.
12. Suarez, P.: IEEE Trans. Applied Supercond. 21 (2011) 1267.
13. Dai, J.S.: IEEE ASEMD 2013 6780723, pp. 124.
14. Dai, J.S.: IEEE Trans. Applied Supercond. 24 (2014) 9002104.
15. Demencik, E.: IEEE Trans. Applied Supercond. 26 (2016) 9001004.
16. Rangaiah, P.K.B.: Proc. European Conf. Antennas Propagation – EUCAP 2020.