Mgr. Seiler Eugen, PhD.

Seiler, E., Gömöry, F., Ries, R., M., and Vojenčiak, M.: Analysis of critical current anisotropy in commercial coated conductors in terms of the maximum entropy approach, Supercond. Sci Technol. 32 (2019) 095004.

1. Kapolka, M.: Supercond. Sci Technol. 33 (2020) 044019.

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.

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.

Seiler, E., Richter, D., Bordini, B., Bottura, L., Bessette, D., Vostner, A., and Devred, A.: Hysteresis losses and effective Jc(B) scaling law for ITER Nb3Sn strands. IEEE Trans. Applied Supercond. 26 (2016) 8200307.

1. Liu, D.: IEEE Trans. Applied Supercond. 27 (2017) 5203711.
2. Vallcorba, R.: IEEE Trans. Applied Supercond. 28 (2018) 4202605.

Gömöry, F., Šouc, J., Pardo, E., Seiler, E., Soloviov, M., Frolek, L., Skarba, M., Konopka, P., Pekarčíková, M., and 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.

Seiler, E., Abrahamsen, A., Kováč, J., Wichmann, M., and Traeholt, C.: Measurement of AC losses in a racetrack superconducting coil made from YBCO coated conductor. Phys. Procedia 36 (2012) 980-984.

1. Iwai, S.: IEEE Trans. Applied Supercond. 24 (2014) 4600705.
2. Iwai, S.: IEEE Trans. Applied Supercond. 27 (2017) 4603605.

Abrahamsen, A., Jensen, B., Seiler, E., Mijatovic, N., Zermeno, V., Andersen, N., and Ostergard, J.: Feasibility study of 5 MW superconducting wind turbine generator, Physica C 471 (2011) 1464–1469.

1. Selvamanickam, V.: Supercond. Sci Technol. 25 (2012) 125013.
2. Solovyov, V.F.: IEEE Trans. Applied Supercond. 23 (2013) 6600905.
3. Selvamanickam, V.: Supercond. Sci Technol. 26 (2013) 035006.
4. Solovyov, V.: Supercond. Sci Technol. 26 (2013) 013001.
5. Inoue, M.: IEEE Trans. Applied Supercond. 23 (2013) 8002304.
6. Wang, J.: IEEE Trans. Applied Supercond. 23 (2013) 5201005.
7. Tsuzuki, K.: IEEE Trans. Applied Supercond. 23 (2013) 4603304.
8. Majkic, G.: IEEE Trans. Applied Supercond. 23 (2013) 6602605.
9. Tsuzuki, K.: IEEE Trans. Applied Supercond. 23 (2013) 6409414.
10. Tang, X.: IEEE Trans. Applied Supercond. 23 (2013) 6661436.
11. Tang, X.: IEEE Trans. Applied Supercond. 24 (2014) 7500104.
12. Wang, J.: IEEE Trans. Applied Supercond. 24 (2014) 5202106.
13. Zhang, W.: IEEE Trans. Applied Supercond. 24 (2014) 5201704.
14. Selvamanickam, V.: Supercond. Sci Technol. 27 (2014) 055010.
15. Sarmiento, G.: J. Phys.: Conf. Series 507 (2014) 032041.
16. Song, S.: Progress in Supercond. and Cryogenics (PSAC 16 (2014) 23.
#   17. Krüger, P.: Optimisation of Hysteretic Losses in High-Temperature Superconducting Wires. PhD Thesis Karlsruhe: KIT Sci Publ., 2014 ISBN 978-3- 73150-185-5.
18. Miura, S.: IEEE Trans. Applied Supercond. 25 (2015) 6604904.
19. Berg, F.: IEEE Trans. Applied Supercond. 25 (2015) 5202705.
20. Khalil, Md.E.: IEEE ICEEICT 2015.
21. Song, S.: IEEE Trans. Applied Supercond. 25 (2015) 6928408.
22. Kim, A.-R.: IEEE Trans. Applied Supercond. 25 (2015) 6998842.
23. Wang, J.: IEEE Trans. Industrial Electron. 63 (2016) 1618.
24. Shafaie, R.: IEEE Trans. Applied Supercond. 26 (2016) 7386642.
#   25. Kalsia, M.: Inter. J. Control Theory Appl. 9 (2016) 309.
26. Majkic, G.: IEEE Trans. Applied Supercond. 27 (2017) 6602605.
27. Miura, S.: Applied Phys. Express 10 (2017) 103101.
28. Miura, S.: Supercond. Sci Technol. 30 (2017) 084009.
29. Cheng, Y.: IEEE Trans. Applied Supercond. 28 (2018) 5205105.
30. Kails, K.: Supercond. Sci Technol. 31 (2018) 055009.
31. Song, S.: IEEE Trans. Applied Supercond. 28 (2018) 4701304.
32. Cho, H.W.: J. Phys.: Conf. Ser. 1054 (2018) 012083.
33. Majkic, G.: IEEE Trans. Applied Supercond. 29 (2019) 6602005.
34. Gao, Y.: IEEE Trans. Applied Supercond. 29 (2019) 5201705.
35. Zhu, X.: IEEE Access 7 (2019) 51129.
36. Kails, K.: IET Renewable Power Gener. 13 (2019) 2774.
37. Wang, G.: Supercond. Sci Technol. 32 (2019) 105011.
38. Wu, Q.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 4.
39. Miura, S.: IEEE Trans. Applied Supercond. 30 (2020) 5204106.
40. Vyas, G.: J. Energy Storage 27 (2020) 101073.

Zermeno, V., Mijatovic, N., Traeholt, C., Zirngibl, T., Seiler, E., Abrahamsen, A., Pedersen, N., and Sorensen, M.:Towards faster FEM simulation of thin film superconductors: a multiscale approach,. IEEE Trans. Applied Supercond. 21 (2011) 3273-3276. (Not IEE SAS).

 1. Grilli, F.: Cryogenics 53 (2013) SI142.
2. Chen, Y.: Physica C 487 (2013) 31.
3. Chen, Y.: Physica C 489 (2013) 1.
4. Queval, L.: IEEE Trans. Applied Supercond. 23 (2013) 5201905.
5. Lahtinen, V.: J. Applied Phys. 115 (2014) 113907.
#     6. Bretterklieber, T.: Proc. IEEE Sensors (2014) 6985436, p. 2042.
7. Pardo, E.: Supercond. Sci Technol. 28 (2015) 044003.
8. Badr, B.M.: IEEE Sensors J. 15 (2015) 2144.
9. Casali, M.: IEEE Trans. Applied Supercond. 25 (2015) 6600112.
10. Pardo, E.: Supercond. Sci Technol. 28 (2015) 114008.
11. Xia, J.: Supercond. Sci Technol. 28 (2015) 125004.
12. Sass, F.: Supercond. Sci Technol. 28 (2015) 125012.
13. Pardo, E.: Supercond. Sci Technol. 29 (2016) 085004.
14. Acciani, G.: IEEE EUROSIME 2016.
15. Wang, Z.: IEEE Trans. Applied Supercond. 27 (2017) 4900405.
16. Zhou, P.-B.: IEEE Trans. Applied Supercond. 27 (2017) 0601105.
17. Martins, F.G.R.: Supercond. Sci Technol. 30 (2017) 115009.
18. Alvarez, A.: IEEE Trans. Applied Supercond. 28 (2018) 6600805.
19. Zhou, W.: IEEE Trans. Applied Supercond. 28 (2018) 8200605.
20. Sass, F.: Supercond. Sci Technol. 31 (2018) 025006.
21. Liu, K.: Supercond. Sci Technol. 31 (2018) 015013.
22. Song, W.: IEEE Trans. Applied Supercond. 28 (2018) 5900606.
23. Yazdani-Asrami, M.: J. Supercond. Novel Magnetism 31 (2018) 3899.
24. Song, W.: Supercond. Sci Technol. 31 (2018) 115001.
25. Song, W.: Cryogenics 94 (2018) 14.
26. Song, W.: IEEE Trans. Applied Supercond. 29 (2019) 5900405.
27. Zhou, P.-B.: J. Phys. D 52 (2019) 075001.
28. Yazdani-Asrami, M.: J. Supercond. Novel Magnetism 31 (2018) 3875.
29. Martins, F.G.R.: Supercond. Sci Technol. 32 (2019) 044002.
30. Xia, J.: Supercond. Sci Technol. 32 (2019) 095005.
31. Li, Y.: IEEE Trans. Applied Supercond. 29 (2019) 4701805.
32. Pardo, E.: IEEE Trans. Applied Supercond. 29 (2019) 5202505.
33. Anischenko, I.: Supercond. Sci Technol. 32 (2019) 105001.
34. Jiang, Z.: J. Phys. Comm. 3 (2019) UNSP 095017.
35. Kails, K.: Supercond. Sci Technol. 33 (2020) 045014.
36. Shen, B.: Supercond. Sci Technol. 33 (2020) 033002.
37. Shen, B.: IEEE Access 8 (2020) 100403.
38. Zhang, H.: Supercond. Sci Technol. 33 (2020) 084008.
39. Yazdani-Asrami, M.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 5.
40. Pi, W.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 4.
41. Sun, Y.: IEEE Trans. Applied Supercond. 31 (2021) Iss.‏ ‏1.
42. Smara, A.: Europ. Phys. J.-Applied Phys. 92 (2020) 20902.
43. You, S.: Supercond. Sci Technol. 33 (2020) 115011.
44. Jiang, Z.: J. Phys. Comm.‏ 5 (2021) 025003.
45. Yazdani-Asrami, M.: Cryogenics 113 (2021) 103234.
46. Yazdani-Asrami, M.: IEEE Trans. Applied Supercond. 31 (2021) Iss.‏ ‏1.
#     47. Yu, T.: Adv. Intelligent Systems Comput. 1017 (2020) 410.

Seiler, E., Zirngibl, T., Mijatovic, N., Traeholt, C., Christensen, J., Abrahamsen, A., : AC loss in superconducting wires operating in a wind turbine like generator,. J. Phys.: Conf. Series 234 (2010) 032051.

1.  Ogren, M.: Physica C 479 (2012) 157.
2. Song, H.: Acta Materialia 60 (2012) 6991.
3. Vargas-Llanos, R.C.: Supercond. Sci Technol. 29 (2016) 034008.

Mijatovic, N., Abrahamsen, A., Traeholt, C., Seiler, E., Henriksen, M., Zermeno, V., Pedersen, N., :Superconducting generators for wind turbines: Design considerations,. J. Phys.: Conf. Series 234 (2010) 032038. (Not IEE SAS).

1. Kim, G.-H.: IEEE Trans. Applied Supercond. 22 (2012) 5202105.
2. Solovyov, V.F.: IEEE Trans. Applied Supercond. 23 (2013) 6600905.
3. Queval, L.: IEEE Trans. Applied Supercond. 23 (2013) 5201905.
4. Chudy, M.: IEEE Trans. Applied Supercond. 24 (2014) 8200606.
5. Sung, H.-J.: Supercond. Sci Technol. 29 (2016) 054001.
#    6.  Szczerbowski, R.: Przeglad Elektrotechn. 92 (2016) 142.
7. Bon, U.: Progress in Supercond. Cryog. 21 (2019) 25.

Abrahamsen, A., Mijatovic, N., Seiler, E., Zirngibl, T., Traeholt, C., Norgard, P., Pedersen, N., Andersen, N., and Ostergard, J.: Superconducting wind turbine generators,. Supercond. Sci Technol. 23 (2010) 034019. (Not IEE SAS).

1. Quddes, M.R.: IEEE Trans. Applied Supercond. 21 (2011) 1101.
2. Fukui, S.: IEEE Trans. Applied Supercond. 21 (2011) 1151.
3. Li, X.: IEEE Trans. Applied Supercond. 21 (2011) 1155.
4. Keysan, O.: IEEE Trans. Applied Supercond. 21 (2011) 3523.
5. Vermeir, P.: Mater. Research Bull. 47 (2012) 4376.
6. Costa Branco, P. J.: IEEE Trans. Industrial Electron. 59 (2012) 4120.
7. Chan, W.K.: IEEE Trans. Applied Supercond. 22 (2012) 4706010.
8. Terao, Y.: IEEE Trans. Applied Supercond. 22 (2012) 5201904.
9. Mogensen, M.: ECS Trans. 45 (2012) 3.
10. Keysan, O.: Phys. Procedia 36 (2012) 759.
11. Malozemoff, A.P.: Annual Rev. Mater. Research 42 (2012) 373.
12. Valdes, R.: Renewable Energy 53 (2013) 249.
13. Terao, Y.: IEEE Trans. Applied Supercond. 23 (2013) 5200904.
14. Queval, L.: IEEE Trans. Applied Supercond. 23 (2013) 5201905.
15. Qu, R.: IEEE Trans. Applied Supercond. 23 (2013) 5201108.
16. Pardo, E.: IEEE Trans. Applied Supercond. 23 (2013) 4701305.
17. Chang, H.-M.: IEEE Trans. Applied Supercond. 23 (2013) 4801004.
18. Shafaie, R.: IEEE Trans. Applied Supercond. 23 (2013) 5202307.
19. Kwon, O.J.: Supercond. Sci Technol. 26 (2013) 085025.
20. Shin, H.-J.: IEEE Trans. Applied Supercond. 23 (2013) 7700404.
21. Polikarpova, M.: Mechanika 19 (2013) 417.
22. Vermeir, P.: Thin Solid Films 548 (2013) 498.
#   23. Bäcker, M.: In Chemical Solution Deposition of Functional Oxide Thin Films Springer 2013 ISBN: 978-3-211-99310-1. P. 673.
24. Chudy, M.: IEEE Trans. Applied Supercond. 24 (2014) 8200606.
25. Kim, K.L.: Supercond. Sci Technol. 27 (2014) 015001.
26. Chang, H.-M.: IEEE Trans. Applied Supercond. 24 (2014) 3800204.
27. Kwon, O.J.: IEEE Trans. Applied Supercond. 24 (2014) 4602505.
28. Zhang, Z.: IEEE Trans. Industry Appl. 50 (2014) 1835.
29. Witte, M.: Adv.  Engn. Mater. 16 (2014) 539.
30. Shafaie, R.: IEEE Trans. Applied Supercond. 24 (2014) 5202209.
31. Qu, T.: Supercond. Sci Technol. 27 (2014) 044026.
32. Zermeno, V.: Supercond. Sci Technol. 27 (2014) 044025.
33. Ma, G.-T.: Supercond. Sci Technol. 27 (2014) 065011.
34. Shafaie, R.: EEEIC 2014 – Conf. Proc. 6835831 (2014) 29.
35. Crabtree, G.: Futures 58 (2014) 53.
36. Natarajan, A.: Wiley Interdiscip. Rev.: Energy and Environment 3 (2014) 111.
37. Tsukamoto, O.: Physica C 504 (2014) 106.
#     38. Keysan, O.: PEMD 2014.
#     39. Zuo, S.: Abstract and Applied Anal. (2014) 376259.
#     40. Yang, F.: Abstract and Applied Anal. (2014) 139752.
#     41. Keysan, O.: 2014 IET Conference 628 CP.
#     42. Krüger, P.: Optimisation of Hysteretic Losses in High-Temperature Superconducting Wires. PhD Thesis Karlsruhe: KIT Sci Publ., 2014 ISBN 978-3- 73150-185-5.
43. Chen, E.: IEEE Trans. Applied Supercond. 25 (2015) 8201204.
44. Choi, Y.H.: IEEE Trans. Applied Supercond. 25 (2015) 4602006.
45. Park, S.H.: IEEE Trans. Applied Supercond. 25 (2015) 5201205.
46. Keysan, O.: Supercond. Sci Technol. 28 (2015) 034004.
47. Kim, K. L.: Current Applied Phys. 15 (2015) 8.
48. Sun, J.: IOP Conf. Ser.-Mate. Sci Engn.101 (2015) 012088.
49. Shin, H.-J.: IEEE Trans. Applied Supercond. 25 (2015) 4602105.
50. Chang, H.-M.: Cryogenics 70 (2015) 1.
51. Go, B.-S.: J. Electr. Engn. Technol. 10 (2015) 2271.
52. Parker, M.A.: Proc. IEEE Inter. Conf. on Industrial Technol. 2015. Art. no. 7125223, p. 969.
53. Zheng, L.H.: IEEE ASEMD 2015. P. 5.
#     54. Jeong, J.: IEEE INTERMAG 2015. Art. no. 7156606.
#     55. Shafaie, R.: CTPP 2015. Art. no. 7040702, p. 99.
56. Yang, Y.: IEEE Trans. Applied Supercond. 26 (2016) 5200205.
57. Radyjowski, P.: Supercond. Sci Technol. 29 (2016) 044002.
58. Vargas-Llanos, R.C.: Supercond. Sci Technol. 29 (2016) 034008.
59. Wang, J.: IEEE Trans. Industrial Electron. 63 (2016) 1618.
60. Bumby, C.W.: Supercond. Sci Technol. 29 (2016) 024008.
61. Song, P.: Supercond. Sci Technol. 29 (2016) 054007.
62. Sung, H.-J.: Supercond. Sci Technol. 29 (2016) 054001.
63. Sung, H.J.: IEEE Trans. Applied Supercond. 26 (2016) 5206205.
64. Go, B.S.: IEEE Trans. Applied Supercond. 26 (2016) 5202905.
65. Jeong, S.-H.: Composites B-Engn. 94 (2016) 190.
66. Fukui, S.: IEEE Trans. Applied Supercond. 26 (2016) 5203705.
67. Song, X.: IEEE Trans. Applied Supercond. 26 (2016) 5900105.
68. Liu, D.: IEEE ICEM 2016. P. 318.
69. Hossain, J.: Wind Engn. 40 (2016) 379.
70. Furuse, M.: Cryogenics 80 (2016) SI199.
71. Choi, Y. H.: Rev. Sci Instrum. 87 (2016) 104704.
72. Terao, Y.: IEEE ICEMS 2016.
73. Shafaie, R.: IEEE Trans. Applied Supercond. 26 (2016) 5201408.
#     74. Zheng, L.H.: 2016 IEEE ASEMD 2015 – Proc. 7453437. P. 5.
#     75. Parker, M.A.: IET Conf. Publ. 2016 (CP684).
76. Sun, J.: IOP Conf. Ser.-Mater. Sci Engn. 171 (2017) UNSP 012121.
77. Wang, Y.: IEEE Trans. Applied Supercond. 27 (2017) 5201405.
78. Jeong, J.-S.: IEEE Trans. Applied Supercond. 27 (2017) 5202804.
79. Go, B.-S.: IEEE Trans. Applied Supercond. 27 (2017) 5202405.
80. Li, X.-T.: IEEE Trans. Applied Supercond. 27 (2017) 5203307.
81. Kovalev, K.L.: IOP Conf. Ser.-Earth Environmen. Sci 87 (2017) UNSP 032018.
82. Kim, H. S.: IOP Conf. Ser. 279 (2017) UNSP 012018.
83. Hoang, T.-K.: ACEMP 2017. P. 623.
84. Jing, H.: IEEE Trans. Applied Supercond. 27 (2017) 5203906.
85. Murphy, J.P.: Cryogenics 86 (2017) 57.
86. Jing, H.: IEEE Trans. Applied Supercond. 27 (2017) 5204108.
#      87. Sun, J.: Refrigeration Sci Technol. 2017, pp. 120-125.
#      88. Terao, Y.: 19th Inter. Conf. Electrical Machines Systems, ICEMS 2016, no. 7837221.
#       89. Guan, Y.: IEEE Trans. Applied Supercond. 27 (2017) 5204009.
#     90. Guan, Y.: IEEE Trans. Applied Supercond. 27 (2017) 7993070.
91. Han, S.: Cryogenics 89 (2018) 141.
92. Kails, K.: Supercond. Sci Technol. 31 (2018) 055009.
93. Hoang, T.-K.: IEEE Trans. Applied Supercond. 28 (2018) 5206705.
94. Zhang, J.W.: IEEE Trans. Applied Supercond. 28 (2018) 8800207.
95. Sotelo, G.G.: IEEE Trans. Industr. Electron. 65 (2018) 7477.
96. Shafaei, R.: IEEE Trans. Applied Supercond. 28 (2018) 5208312.
97. Kovac, P.: Sci Rep. 8 (2018) 11229.
98. Balog, M.: Mater Design 157 (2018) 12.
99. Kim, D.: Nano Energy 52 (2018) 256.
100. Patel, D.: Supercond. Sci Technol. 31 (2018) 105010.
101. Ramalingam, R.: IEEE Sensors (2018) 1492.
102. Wang, Y.: Metal Oxides 2018, p. 361.
103. Sun, J.: IEEE Trans. Applied Supercond. 28 (2018) 5201105.
104. Kapolka, M.: Supercond. Sci Technol. 32 (2019) 054001.
105. Xi, D.: IEEE Trans. Applied Supercond. 29 (2019) 8000604.
106. Wang, M.: Supercond. Sci Technol. 32 (2019) 01LT01.
107. Ramalingam, R.: IOP Conf. Ser.-Mater. Sci. Engn. 502 (2019) 012169.
108. Nyanteh, Y.D.: Wind Energy 22 (2019) 780.
109. Bon, U.: Progress in Supercond. Cryog. 21 (2019) 25.
110. Fukui, S.: IEEE Trans. Applied Supercond. 29 (2019) 8201305.
111. Song, X.: IEEE Trans. Applied Supercond. 29 (2019) 5202605.
112. Ma, W.: IEEE Trans. Applied Supercond. 29 (2019) 5202005.
113. Go, B.-S.: IEEE Trans. Applied Supercond. 29 (2019) 5204005.
114. Sung, H.-J.: IEEE Trans. Applied Supercond. 29 (2019) 5203905.
115. Song, X.: IEEE Trans. Energy Conversion 34 (2019) 2218.
116. Kails, K.: IET Renewable Power Gener. 13 (2019) 2774.
117. Cho, H.W.: J. Phys.: Conf. Ser. 1054 (2019) 012083.
#   118. Liu, D.: APPEEC 2019, no. 8994341.
#   119. Terao, Y.: SAE Techn. Papers September 2019.
120. Kails, K.: Supercond. Sci Technol. 33 (2020) 045014.
121. Yang, Y.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 8.
122. Li, C.: J. Supercond. Novel Magnetism 33 (2020) 2923.
123. Cubero, A.: Cryogenics 108 (2020) UNSP 103070.
124. Cheng, M.: J. Polytech.-Politek. Dergisi 23 (2020) 537.
125. Go, B.-S.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 4.
126. Wang, M.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 4.
127. Shin, H.-S.: IEEE Trans. Applied Supercond. 30 (2020) Iss.‏ 4.
128. Liu, D.: IEEE Trans. Applied Supercond. 30 (2020) 5201005.
129. Miura, S.: IEEE Trans. Applied Supercond. 30 (2020) 5204106.
130. Lee, J.: IEEE Trans. Applied Supercond. 30 (2020) 5201905.
131. Bray, J.W.: IEEE Trans. Applied Supercond. 30 (2020) 4702005.
132. Liu, D.: IEEE Trans. Applied Supercond. 30 (2020) 5201105.
133. Antoncik, F.: Supercond. Sci Technol. 33 (2020) 045010.
134. Taherian-Fard, E.: IEEE Trans. Industry Appl. 56 (2020) 1729.
135. Kails, K.: J. Phys.: Conf. Ser. 1559 (2020) 012145.
136. Zhang, H.: J. Phys.: Conf. Ser. 1559 (2020) 012140.
137. Dadhich, A.: Sci Rep. 10 (2020) 19265.
138. Zhao, P.: J. Low Temp. Phys. 202 (2021)‏ 382.
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Abrahamsen, A., Mijatovic, N., Seiler, E., Sorensen, M., Koch, M., Norgard, P., Pedersen, N., Traeholt, C., Andersen, N., Ostergard, J., : Design study of 10 kW superconducting generator for wind turbine applications,. IEEE Trans. Applied Supercond. 19 (2009) 1678-1682. (Not IEE SAS).

1. Li, J.: IEEE Trans. Applied Supercond. 20 (2010) 1055.
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6. Costa Branco, P. J.: IEEE Trans. Industrial Electron. 59 (2012) 4120.
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8. Terao, Y.: IEEE Trans. Applied Supercond. 22 (2012) 5201904.
9. Shin, H.-J.: IEEE Trans. Applied Supercond. 23 (2013) 7700404.
10. Wang, Y.: IEEE Trans. Applied Supercond. 23 (2013) 5000904.
11. Terao, Y.: IEEE Trans. Applied Supercond. 23 (2013) 5200904.
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16. Ohsaki, H.: 4th ICCEP 2013, Art. no. 6587020.
17. Tuohy, P.M.: IET Electric Power Appl. 7 (2013) 557.
18. Yu, X.-Y.: Phys. Procedia  45 (2013) 257.
19. Polinder, H.: Woodhead Publ. Ser. in Energy Iss. 24 (2013) 30.
20. Liu, Y.: IEEE Trans. Applied Supercond. 24 (2014) 5201405.
21. Witte, M.: Adv.  Engn. Mater. 16 (2014) 539.
22. Shafaie, R.: IEEE Trans. Applied Supercond. 24 (2014) 5202209.
23. Qu, T.: Supercond. Sci Technol. 27 (2014) 044026.
24. Zuo, S.: Abstract Applied Anal. (2014) 376259.
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26. Hamid, N.A.: Applied Mechan. Mater. 564 (2014) 758.
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