Dr. Mruczkiewicz Michal

Szulc, K., Mendisch, S., Mruczkiewicz, M., Casoli, F., Becherer, M., and Gubbiotti, G.: Nonreciprocal spin-wave dynamics in Pt/Co/W/Co/Pt multilayers, Phys. Rev. B 103 (2021) 134404.

1. Liu, H.: J. Applied Phys. 131 (2022) 213902.

Bublikov, K., Tóbik, J., Sadovnikov, A.V., and Mruczkiewicz, M.: Vortex gyrotropic mode in curved nanodots, J. Magnetism Magnetic Mater. 537 (2021) 168105.

1. Finizio, S.: Nano Lett. 22 (2022) 1971.

Vetrova, Iu.V., Zelent, M., Šoltýs, J., Gubanov, V.A., Sadovnikov, A.V., Ščepka, T., Dérer, J., Stoklas, R., Cambel, V., and Mruczkiewicz, M.: Investigation of self-nucleated skyrmion states in the ferromagnetic/nonmagnetic multilayer dot, Applied Phys. Lett. 118 (2021) 212409.

1. Heyderman, L.: Applied Phys. Lett. 119 (2021) 080401.
2. Saavedra, E.: Sci Rep. 11 (2021) 23010.
3. Lepadatu, S.: J. Applied Phys. 130 (2021) 163902.

Grachev, A.A., Matveev, O.V., Mruczkiewicz, M., Morozova, M.A., Beginin, E. N., Sheshukova, S.E., and Sadovnikov, A.V.: Strain-mediated tunability of spin-wave spectra in the adjacent magnonic crystal stripes with piezoelectric layer, Applied Phys. Lett. 118 (2021) 262405.

1. Heyderman, L.J.J.: Applied Phys. Lett. 119 (2021) 080401.

Szulc, K., Graczyk, P., Mruczkiewicz, M., Gubbiotti, G., and Krawczyk, M.: Spin-wave diode and circulator based on unidirectional coupling, Phys. Rev. Applied 14 (2020) 034063.

1. Kuss, M.: Phys. Rev. Applied 15 (2021) 034060.
2. Wang, Q.: Nature Comm. 12 (2021) 2636.
3. Fripp, K.G.: Phys. Rev. B 104 (2021) 054437.
4. Kruglyak, V.V.: Applied Phys. Lett. 119 (2021) 200502.
5. Rana, B.: Nanotechnology 33 (2022) 082002.
6. Kuznetsov, M.A.: Phys. Rev. B 105 (2022) 214401.
7. Geilen, M.: Applied Phys. Lett. 120 (2022) 242404.

Ognev, A.V., Kolesnikov, A.G., Kim, Y. J., Cha, I. H., Sadovnikov, A.V., Nikitov, S.A., Soldatov, I.V., Talapatra, A., Mohanty, J., Mruczkiewicz, M., Ge, Y., Kerber, N., Dittrich, F., Virnau, P., Kläui, M., Kim, Y. K., and Samardak, A.S.: Magnetic direct-write skyrmion nanolithography, ACS Nano 14 (2020) 14960–14970.

1. Stenning, K.D.: ACS Nano 15 (2021) 674.
2. Matsumoto, T.: Front. Phys. 9 (2022) 774951.
3. Zhang, H.R.: Sci Adv. 8 (2022) 7103.
4. Sapozhnikov, M.V.: J. Magnet. Magnet. Mater. 549 (2022) 169043.

Li, X., Shen, L., Bai, Y., Wang, J., Zhang, X., Xia, J., Ezawa, M., Tretiakov, O.A., Xu, X.,  Mruczkiewicz, M., Krawczyk, M., Xu, Y., Evans, R.F.L., Chantrell, R.W., and Zhou, Y.: Bimeron clusters in chiral antiferromagnets, npj Computat. Mater. 6 (2020) 169.

1. Silva, R.L.: Phys. Lett. A (2021) 403.
2. Jani, H.: Nature 590, Iss. 7844 (2021) 74-+.
3. Cui, Q.R.: Phys. Rev. Res. 3 (2021) 043011.
4. Silva, R.L.: Phys. Lett. A 425 (2022) 127868.
5. Balaz, P.: Phys. Rev. Applied 17 (2022) 044031.
6. Lu, X.B.: J. Phys.-Cond. Matt. 34 (2022) 275802.
7. Li, P.: Phys. Rev. B 106 (2022) 024419.

Feilhauer, J., Saha, S., Tóbik, J., Zelent, M., Heyderman, L.J., and Mruczkiewicz, M.: Controlled motion of skyrmions in a magnetic antidot lattice, Phys. Rev. B 102 (2020) 184425.

1. Reichhardt, C.: Phys. Rev. B 103 (2021) 125107.
2. Reichhardt, C.: Phys. Rev. E 103 (2021) 062603.
3. Vizarim, N.P.: J. Magnetism Magnet. Mater. 528 (2021) 167710.
4. Zhang, X.C.: Comm. Phys. 4 (2021) 255.
5. Bindal, N.: IEEE Nanotechnol. Magazine 15 (2021) 28.
6. Ahrens, V.: AIP Adv. 12 (2022) 035325.
7. Reichhardt, C.J.O.: Phys. Rev. Res. 4 (2022) 013190.
8. Reichhardt, C.: J. Chem. Phys. 156 (2022) 124901.
9. Porro, J.M.: Magnetochem. 8 (2022) 55
10. Paikaray, B.: ACS Applied Electron. Mater. 4 (2022) 2290.
11. Vizarim, NP.: Phys. Rev. B 105 (2022) 224409.
12. MacKinnon, C.R.: Sci Rep. 12 (2022) 10786.
13. Reichhardt, C.: Phys. Rev. B 105 (2022) 214437.

Gruszecki,P., Banerjee, C., Mruczkiewicz, M., Hellwigde, O., Barman, A., and Krawczyk, A.: The influence of the internal domain wall structure on spin wave band structure in periodic magnetic stripe domain patterns, Solid State Phys. 70 (2019) 79-132.

1. Reyes-Rodriguez, P.Y.: Ceram. Inter. 46 (2020) ‏A 27913.
2. Alvarez-Prado, L.M.: Magnetochem. 7 (2021) 43.
3. Noah, A.: Nano Lett. 22 (2022) 3165.
4. Chong, W.J.: J. Mater. Sci Technol. 111 (2022) 120.

Centala, G., Sokolovskyy, M. L., Davies, C. S., Mruczkiewicz, M., Mamica, S., Rychly, J., Klos, J. W., Kruglyak, V. V., and Krawczyk, M.: Influence of nonmagnetic dielectric spacers on the spin-wave response of one-dimensional planar magnonic crystals, Phys. Rev. B 100 (2019) 224428.

1. Vidal-Silva, N.: Phys. Rev. B 102 (2020) 104411.
2. Singh, S .: J. Magnetism. Magnetic Mater. 539 (2021) 168376.

Saha, S., Zelent, M., Finizio, S., Mruczkiewicz, M., Tacchi, S., Suszka, A.K., Wintz, S., Bingham, N.S., Raabe, J., Krawczyk, M., and Heyderman, L.J.: Formation of Néel-type skyrmions in an antidot lattice with perpendicular magnetic anisotropy, Phys. Rev. B 100 (2019) 144435.

1. Vizarim, N.P.: Phys. Rev. B 102 (2020) 104413.
2. Vizarim, N.P.: J. Phys. Comm. 4 (2020) 085001.
3. Vigo-Cotrina, H.: J. Magnetism. Magnetic Mater. 507 (2020) 166848.
4. Vizarim, N.P.: J. Magnetism. Magnetic Mater. 528 (2021) 167710.
5. Vizarim, N.P.: J. Phys.-Cond. Matt. 33 (2021) 305801.
6. Wang, TY.: J. Magnetism. Magnetic Mater. 544 (2022) 168680.
7. Chen, JL J. Phys. D 55 (2022) 123001.
8. Del-Valle, N.: APL Mater. 10 (2022) 010702.
9. Reichhardt, C.: Phys. Rev. B 105 (2022) 214437.

An, K., Bhat, V.S., Mruczkiewicz, M., Dubs, C., and Grundler, D.: Optimization of spin-wave propagation with enhanced group velocities by exchange-coupled ferrimagnet-ferromagnet bilayers, Phys. Rev. Applied 11 (2019) 034065.

1. Zhang, Z.: Applied Phys. Lett. 115 (2019) 232402.
2. Tacchi, S.: Phys. Rev. B 100 (2019) 104406.
3. Liu, Y.: J. Magnetism. Magnetic Mater. 514 (2020) 167222.
4. Li, Y.: Phys. Rev. Lett. 124 (2020) 117202.
5. Xiong, Y.: Rev. Sci Instrum. 91 (2020) 125105.
6. Santos, O.A.: Phys. Rev. Applied 15 (2021) 014038.
7. Sobucki, K.: Sci Rep. 11 (2021) 4428.
8. Zhang, Z.Z.: Phys. Rev. B 103 (2021) 104420.
9. Wang, H.C.: Applied Phys. Lett. 119 (2021) 152402.
10. Wang, H.C.: Phys. Rev. B 106 (2022) 064410.

Mruczkiewicz, M., Gruszecki, P., Krawczyk, M., and Guslienko, K.Y.: Azimuthal spin-wave excitations in magnetic nanodots over the soliton background: Vortex, Bloch, and Néel-like skyrmions, Phys. Rev. B 97 (2018) 064418.

1. Rozsa, L.: Phys. Rev. B 98 (2018) 224426.
2. Rozsa, L.: Phys. Rev. B 98 (2018) 100404.
3. Miriyala, V. P. K.: J. Magnetism. Magnetic Mater. 486 (2019) 165271.
4. Song, C.: New J. Phys. 21 (2019) 083006.
5. Sisodia, N.: Physica Status Solidi-RRL 14 (2020) 1900525.
6. Wang, Z.: J. Magnetism. Magnetic Mater. 512 (2020) 167014.
7. Liu, X. J.: J. Magnetism. Magnetic Mater. 510 (2020) 166965.
8. Korniienko, A.: Phys. Rev. B 102 (2020) 014432.
9. Bi, M.: RSC Adv. 10 (2020) 25639.
10. Liu, X. J.: AIP Adv. 10 (2020) 075222.
11. Lonsky, M.: APL Mater. 8 (2020) 100903.
12. Yang, J.: Sci Rep. 11 (2021) 3886.
13. Yang, J.: Phys. Rev. B 104 (2021) 134427.
14. Bo, L.: Applied Phys. Lett. 119 (2021) 212408.
15. Saavedra, E.: Sci Rep. 11 (2021) 23010.
16. Bassotti, M.: IEEE Magnetics Lett. 13 (2022) 6101505.
17. Zeng, Z.Z.: J. Phys. D 55 (2022) 185001.
18. Bo, L.: J. Phys. D 55 (2022) 333001.
19. Vigo-Cotrina, H.: J. Magnetism. Magnetic Mater. 560 (2022) 169665.

Bertrand, A., Dumur, F., Mruczkiewicz, M., Perrin, M., Lartigau-Dagron, C., Bousquet, A., Vignau, L., Billon, L., and Fasquel, S.:  Bottom-up honeycomb top layer for light outcoupling enhancement in blue organic light emitting diodes, Organic Electron. 52 (2018) 222-229. (Not IEE SAS)

1. Han, J. W.: Optical Mater. 96 (2019) UNSP 109262.
2. Yang, S.-H.: Vacuum 168 (2019) UNSP 108841.
3. Hongyao, Y.: Acta Physico-Chim. Sinica 35 (2019) 1341.
4. Kwack, J.H.: Nanotechnol. 31 (2020) 335205.
5. Lamontagne, H.R.: ACS Applied Polymer Mater. 2 (2020) 5327.
6. Park, C.H.: Sci Rep. 11 (2021) 3430.
7. Sajeev, A.K.: Organic Electron. 100 (2022) 106386.
8. Yang, S.H.: Applied Surface Sci 579 (2022) 152143.
9. de Leon, A.S.: ACS Applied Mater. Interfaces 14 (2022) 20023.
10. Hong, D.M.: Acta Photonica Sinica 51 (2022) 0551316.

Neilinger, P., Ščepka, T., Mruczkiewicz, M., Dérer, J., Manca, D., Dobročka, E., Samardak, A.S., Grajcar, M., and Cambel, V.: Ferromagnetic resonance study of sputtered Pt/Co/Pt multilayers, Applied Surface Sci 461 (2018) 202-205.

1. Stebliy, M. E.: Phys. Rev. Applied 11 (2019) 054047.
2. Tavares, M. A. B.: AIP Adv. 9 (2019) Iss. 12.
3. Fattouhi, M.: Phys. Rev. Applied (2021) 014040.

Neilinger, K., Šoltýs, J., Mruczkiewicz, M., Dérer, J., and Cambel, V.: Dual-cantilever magnetometer for study of magnetic interactions between patterned permalloy microstructures, J. Magnetism Magnetic Mater. 444 (2017) 354-360.

1. Yu, Y.: Japan. J. Applied Phys. 57 (2018) 090312.

Zelent, M., Tóbik, J., Krawczyk, M., Guslienko, K.Y., and Mruczkiewicz, M.: Bi‐stability of magnetic skyrmions in ultrathin multilayer nanodots induced by magnetostatic interaction, Physica Status Solidi RRL 11 (2017) 1700259.

1. Buttner, F.: Sci Rep. 8 (2018) 4464.
2. Everschor-Sitte, K.: J. Applied Phys. 124 (2018) 240901.
3. Bernand-Mantel, A.: SciPost Phys. 4 (2018) UNSP 027.
4. Morozova, M. A.: J. Magnetism. Magnetic Mater. 466 (2018) 119.
5. Ho, P.: Phys. Rev. Applied 11 (2019) 024064.
6. Castro, M. A.: J. Phys.-Cond. Matt. 32 (2020) 175801.
7. Dohi, T.: Annual Rev. Cond. Matt. Phys. 13 (2022) 73.
8. Bao, B.: Symmetry-Basel 14 (2022) 1195.

Zeissler, K., Mruczkiewicz, M., Finizio, S., Raabe, J., Shepley, P., Sadovnikov, A.V, Nikitov, S.A., Fallon, K., McFadzean, S., McVitie, S., Moore, T., Burnell, G., and Marrows, C.: Pinning and hysteresis in the field dependent diameter evolution of skyrmions in Pt/Co/Ir superlattice stacks, Sci Rep. 7 (2017) 15125.

1. Xuan, S.: AIP Adv. 8 (2018) 045312.
2. Diaz, S.A.: Phys. Rev. Lett. 120 (2018) 117203.
3. Gross, I.: Phys. Rev. Mater. 2 (2018) 024406.
4. Simon, E.: Phys. Rev. B 97 (2018) 134405.
5. Lin, T.: Phys. Rev. B 98 (2018) 174425.
6. Jia, H.: Phys. Rev. B 98 (2018) 144427.
7. Everschor-Sitte, K.: J. Applied Phys. 124 (2018) 240901.
8. Ho, P.: Phys. Rev. Applied 11 (2019) 024064.
9. Jenkins, A.: Phys. Rev. Mater. 3 (2019) 083801.
10. Lepadatu, S.: Sci Rep. 9 (2019) 9592.
11. Akhtar, W.: Phys. Rev. Applied 11 (2019) 034066.
12. Ummelen, F.C.: Applied Phys. Lett. 115 (2019) 102402.
13. Juge, R.: Phys. Rev. Applied 12 (2019) 044007.
14. Brandao, J.: ACS Applied Nano Mater.2 (2019) 7532.
15. Back, C.: J. Phys. D 53 (2020) 363001.
16. Qin, G.: Applied Phys. Lett. 117 (2020) 052405.
17. Brock, J.: Phys. Rev. Mater. 4 (2020) 104409.
18. Tan, A.K.C.: Phys. Rev. Mater. 4 (2020) 114419.
19. Je, S.-G.: Nano Lett.‏ 21(2021)‏ 1253.
20. Derras-Chouk, A.: J. Phys.-Cond. Matt. 33 (2021) 195802.
21. Mourkas, A.: J. Magnetism. Magnetic Mater. 530 (2021) 167937.
22. Flacke, L.: Phys. Rev. B 104 (2021) L100417.
23. Dohi, T.: Annual Rev. Cond. Matt. Phys. 13 (2022) 73.
24. Ye, C.: Rare Metals 41 (2022) 2200.
25. Samardak, A.S.: Phys. Metals Metall. 123 (2022) 238.
26. Vigo-Cotrina, H.: J. Magnetism. Magnetic Mater. 560 (2022) 169665.
#     27. Litzius, K.: In Magnetic Skyrmions and Their Applications. ISBN 978-012820815-1. Elsevier 2021, pp. 31-54.

Mruczkiewicz, M., Krawczyk, M., and Guslienko, K.: Spin excitation spectrum in a magnetic nanodot with continuous transitions between the vortex, Bloch-type skyrmion, and Néel-type skyrmion states, Phys. Rev. B 95 (2017) 094414.

1. Garst, M.: J. Phys. D 50 (2017) 293002.
2. Zhang, V.L.: AIP Adv. 7 (2017) 055212.
3. Jiang, W.: Phys. Rep.-Rev. Sec. Phys. Lett. 704 (2017) 1.
4. Kravchuk, V.P.: Phys. Rev. B 97 (2018) 064403.
5. Cortes-Ortuno, D.: New J. Phys. 20 (2018) 113015.
6. Talapatra, A.: Comput. Mater. Sci 154 (2018) 481.
7. Desplat, L.: Phys. Rev. B 98 (2018) 134407.
8. Ajejas, F.: Nano Lett. 18 (2018) 5364.
9. Everschor-Sitte, K.: J. Applied Phys. 124 (2018) 240901.
10. Ma, Y.: J. Phys. D 52 (2019) 195001.
11. Zhang, C.: J. Magnetism. Magnetic Mater. 490 (2019) UNSP 165542.
12. Miriyala, V. P. K.: J. Magnetism. Magnetic Mater. 486 (2019) UNSP 165271.
13. Song, C.: New J. Phys. 21 (2019) 083006.|
14. Chen, X.: Phys. Rev. Applied 12 (2019) 024008.
15. Carlotti, G.: Applied Phys. Rev. 6 (2019) 031304.
16. Nguyen, H.D.K.: AIP Adv. 9 (2019) 125309.
17. Sisodia, N.: Physica Status Solidi-RRL 14 (2020) 1900525.
18. Flores, C.Q.: Phys. Rev. B 102 (2020) 024439.
19. Bi, M.: RSC Adv. 10 (2020) 25639.
20. Liu, X. J.: AIP Adv. 10 (2020) 075222.
21. Olleros-Rodriguez, P.: ACS Applied Mater. Interfac. 12 (2020) 25419.
22. Wang, Z.: J. Magnetism. Magnetic Mater. 512 (2020) 167014.
23. Lonsky, M.: Phys. Rev. B 102 (2020) 104403.
24. Zhu, Y.: J. Magnetism. Magnetic Mater. 507 (2020) 166805.
25. Lonsky, M.: APL Mater. 8 (2020) 100903.
26. Yang, J.: Phys. Rev. B 102 (2020) 094439.
27. Yang, J.: Sci Rep. 11 (2021) 3886.
28. Bo, L.: Phys. Status Solidi RRL 15 (2021) 2100076.
29. Mourkas, A.: J. Magnetism. Magnetic Mater. 530 (2021) 167937.
30. Yang, J.: Phys. Rev. B 104 (2021) 134427.
31. Bo, L.: Applied Phys. Lett. 119 (2021) 212408.
32. Saavedra, E.: Sci Rep. 11 (2021) 23010.
33. Kharlan, J.: Phys. Rev. B 105 (2022) 014407.
34. Mehmood, N.: J. Magnetism Magnetic Mater. 545 (2022) 168775.
35. Gypens, P.: Phys. Rev. B 105 (2022) 094420.
36. Jin, CD.: New J. Phys. 24 (2022) 043005.
37. Choi, B.: AIP Adv. 12 (2022) 055013.
38. Jin, CD.: New J. Phys. 24 (2022) 073013.
39. Bassotti, M.: IEEE Magnetics Lett. 13 (2022) 6101505.
40. Liu, Y.: Rare Metals 41 (2022) 2184.
41. Zeng, Z.Z.: J. Phys. D 55 (2022) 185001.
42. Bo, L.: J. Phys. D 55 (2022) 333001.

Mruczkiewicz, M., Graczyk, P., Lupo, P., Adeyeye, A., Gubbiotti, G., and Krawczyk, M. : Spin-wave nonreciprocity and magnonic band structure in a thin permalloy film induced by dynamical coupling with an array of Ni stripes, Phys. Rev. B 96 (2017) 104411.

1. Zhang, Y.: J. Mater. Sci-Mater. Electron. 29 (2018) 9531.
2. Morozova, M. A.: J. Magnetism Magnetic Mater. 466 (2018) 119.
3. Zhou, R.: J. Magnetism. Magnetic Mater. 484 (2019) 159.
4. Golovchanskiy, I.A.: Adv. Sci (2019) 1900435.
5. Wang, Q.: Phys. Rev. Lett. 122 (2019) 247202.
6. Gallardo, R. A.: Phys. Rev. Applied 12 (2019) 034012.
7. Stock, C.: Phys. Rev. B 100 (2019) 134429.
8. Frey, P.: Comm. Phys. 3 (2020) 17.
9. Feng, H.: J. Magnetism. Magnetic Mater. 497 (2020) 166008.
10. Bouloussa, H.: Phys. Rev. B 102 (2020) 014412.
11. Song, W.: Physica Status Solidi RRL 14 (2020) 2000118.
12. Zakeri, K.: J. Phys.-Cond. Matter 32 (2020) 363001.
13. Grassi, M.: Phys. Rev. Applied 14 (2020) 024047.
14. Heinz, B.: Ukrain. J.Phys.‏ 65 (2020) 1094.
15. Franco, A.F.: Phys. Rev. B 102 (2020) 184424.
16. Nikitov, S.A.: Phys.-Uspekhi 63 (2020) 945.
17. Fripp, K.G.: Phys. Rev. B 104 (2021) 054437.
18. Kruglyak, V.V.: Applied Phys. Lett. 119 (2021) 200502.
19. Hayami, S.: Phys. Rev. B 105 (2022) 014404.
20. Feng, L.Y.: Chinese Sci Bull. 67 (2022) 1214.
21. Hussain, B.: Solid State Comm. 342 (2022) 114588.
22. Odintsov, S.A.: J. Magnet. Magnetic Mater. 546 (2022) 168736.
23. Dhiman, A.K.: AIP Adv. 12 (2022) 045007.

Mruczkiewicz, M. and Krawczyk, M.: Influence of the Dzyaloshinskii-Moriya interaction on the FMR spectrum of magnonic crystals and confined structures, Phys. Rev. B 94 (2016) 024434.

1. Kruglyak, V.V.: J. Phys. D 50 (2017) 094003.
2. Zingsem, B.W.: Phys. Rev. B 96 (2017) 224407.
3. Lee, S.-J.: Phys. Rev. B 96 (2017) 184433.
4. Davies, C.S.: Phys. Rev. B 96 (2017) 094430.
5. Gallardo, R.A.: Phys. Rev. Lett. 122 (2019) 067204.
6. Zakeri, K.: J. Phys.-Cond. Matter 32 (2020) 363001.
7. Silvani, R.: Applied Sci 11 (2021) 2929.
8. Silvani, R.: J. Magnetism Magnetic Mater. 539 (2021) 168342.
9. Shen, M.K.: J. Phys. D 55 (2022) 213002.

Mruczkiewicz, M., Gruszecki, P., Zelent, M., and Krawczyk, M.: Collective dynamical skyrmion excitations in a magnonic crystal. Phys. Rev. B 93 (2016) 174429.

1. Tacchi, S.: J. Phys.-Cond. Matter 29 (2017) 073001.
2. Schmidt, Heinz-J.: J. Phys. A 50 (2017) 135001.
3. Kim, J.: Sci Rep. 7 (2017) 45185.
4. Garst, M.: J. Phys. D 50 (2017) 293002.
5. Li, Z.-X.: J. Magnetism. Magnetic Mater. 433 (2017) 216.
6. Kolesnikov, A.G.: J. Magnetism. Magnetic Mater. 429 (2017) 221.
7. Kim, J.: J. Applied Phys. 123 (2018) 053903.
8. Chen, Y.-F.: J. Magnetism. Magnetic Mater. 458 (2018) 123.
9. Gareeva, Z.V.: Phys. Solid State 60 (2018) 1146.
10. Gareeva, Z.V.: J. Phys. Comm. 2 (2018) UNSP 035009.
11. Ikka, M.: Phys. Rev. B 98 (2018) 184428.
12. Takeuchi, A.: Applied Phys. Lett. 113 (2018) 072404.
13. Zhang, C.: J. Magnetism. Magnetic Mater. 490 (2019) UNSP 165542.
14. Wang, X.: J. Phys. D 52 (2019) 225001.
15. Li, Z.: NPJ Comput. Mater. 5 (2019) 107.
16. Bornemann, M.: J. Phys.-Cond. Matter 31 (2019) 485801.
17. Guslienko, K.Y.: J. Magnet. 24 (2019) 549.
18. Liu, X. J.: J. Magnetism. Magnetic Mater. 510 (2020) 166965.
19. Zakeri, K.: J. Phys.-Cond. Matter 32 (2020) 363001.
20. Wang, X.-G.: J. Applied Phys. 128 (2020) 063901.
21. Bi, M.: RSC Adv. 10 (2020) 25639.
22. Esposito, V.: Applied Phys. Lett. 116 (2020) Iss.‏ 18 .
23. Li, Z-X.: Phys. Rev. B 101 (2020) 184404.
24. Lonsky, M.: APL Mater. 8 (2020) 100903.
25. Li, Z.X.: Phys. Rep.-Rev. Sect. Phys.Lett. 915 (2021) 1-64.
26. Li, Z.X.: Chirality, Magnet. Magnetoelectr.: Separate Phenomena Joint Effects In Metamater. Struct. 138 (2021) 405.
27. Chen, Z.D.: J. Applied Phys. 130 (2021) 090901.
28. Xie, K.L.: J. Applied Phys. 30 (2021) 153901.
29. Bassotti, M.: IEEE Magnetics Lett. 13 (2022) 6101505.
30. Liu, Y.: Rare Metals 41 (2022) 2184.
31. Li, Z.X.: Phys. Rev. Applied 17 (2022) 024054.
32. Zeng, Z.Z.: J. Phys. D 55 (2022) 185001.
33. Bo, L.: J. Phys. D 55 (2022) 333001.

Dumur, F., Reculusa, S., Mruczkiewicz, M., Perrin, M., Vignau, L., and Fasquel, S.: Multilayer Langmuir-Blodgett films as diffractive external 3D photonic crystal in blue OLEDs, Optics Express  24 (2016) 27184-27198. (Not IEE SAS)

1. Kim, T.G.: ACS Sustainable Chem. Engn. 6 (2018) 11547.
2. Bhattacharyya, A.: Langmuir 35 (2019) 12630.
#    3. Alessio, P.: In Handb. Synthetic Methodol. Protocols of Nanomater. 4-4 (2019) 375.
4. Hupfer, M.L.: Adv. Mater. Interfaces 9 (2022) 2101490.
5. Barah, D.: Semicond. Sci Technol. 37 (2022) 035006.

Bessonov, V., Mruczkiewicz, M., Gieniusz, R., Guzowska, U., Maziewski, A., Stognij, A., and Krawczyk, M.:Magnonic band gaps in YIG-based one-dimensional magnonic crystals: an array of grooves versus an array of metallic stripes. Phys. Rev. B 91 (2015) 104421. (Not IEE SAS).

1. Talbot, Ph.: Procedia Engn. 120 (2015) 1241.
2. Morozova, M.A.: J. Applied Phys. 120 (2016) 223901.
3. Chernov, A.I.: Optics Lett. 42 (2017) 279.
4. Krysztofik, A.: J. Phys. D 50 (2017) 235004.
5. Shimada, K.: J. Phys. D 50 (2017) 275001.
6. Chumak, A.V.: J. Phys. D 50 (2017) 244001.
7. Gallardo, R. A.: Phys. Rev. B 97 (2018) 144405.
8. Qin, H.: Nature Comm. 9 (2018) 5445.
9. Monsivais, G.: J. Magnetism Magnetic Mater. 466 (2018) 150.
10. Gallardo, R. A.: Phys. Rev. Lett. 122 (2019) 067204.
11. Goto, T.: Phys. Rev. Applied 11 (2019) 014033.
12. Goto, T.: Sci Rep. 9 (2019) 16472.
13. Baba, S. Z.: Phys. Rev. B 100 (2019) 104437.
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Rychly, J., Gruszecki, P., Mruczkiewicz, M., Klos, J., Mamica, S., and Krawczyk, M.: Magnonic crystals-prospective structures for shaping spin waves in nanoscale, Low Temp. Phys. 41 (2015) 745-759. (Not IEE SAS).

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Rychly, J., Klos, J., Mruczkiewicz, M., and Krawczyk, M.: Spin waves in one-dimensional bicomponent magnonic quasicrystals. Phys. Rev. B 92 (2015) 054414. (Not IEE SAS).

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Mruczkiewicz, M., Pavlov, E., Vysotsky, S., Krawczyk, M., Filimonov, Y., and Nikitov, S.: Magnonic bandgaps in metalized 1-D YIG magnonic crystals, IEEE Trans. Magnet. 50 (2014) 2304103. (not IEE SAS).

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Mruczkiewicz, M. and Krawczyk, M.: Nonreciprocal dispersion of spin waves in ferromagnetic thin films covered with a finite-conductivity metal, J. Applied Phys. 115 (2014) 113909. (Not IEE SAS).

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Mruczkiewicz, M., Pavlov, E., Vysotsky, S., Krawczyk, M., Filimonov, Y., and Nikitov, S.: Observation of magnonic band gaps in magnonic crystals with nonreciprocal dispersion relation, Phys. Rev. B 90 (2014) 174416. (Not IEE SAS).

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Krawczyk, M., Mamica, S., Mruczkiewicz, M., Klos, J., Tacchi, S., Madami, M., Gubbiotti, G., Duerr, G., and Grundler, D.: Magnonic band structures in two-dimensional bi-component magnonic crystals with in-plane magnetization, J. Phys. D (2013) 495003. (Not IEE SAS).

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Mruczkiewicz, M., Krawczyk, M., Gubbiotti, G., Tacchi, S., Filimonov, Y., Kalyabin, D., Lisenkov, I., and Nikitov, S.: Nonreciprocity of spin waves in metallized magnonic crystal. New J. Phys. 15 (2013) 113023. (Not IEE SAS).

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Venkat, G., Kumar, D., Franchin, M., Dmytriiev, O., Mruczkiewicz, M., Fangohr, H., Barman, A., Krawczyk, M., and Prabhakar, A.: Proposal for a standard micromagnetic problem: spin wave dispersion in a magnonic waveguide, IEEE Trans. Magnet. 49 (2013) 524-529. (Not IEE SAS).

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Mruczkiewicz, M., Krawczyk, M., Sakharov, V., Khivintsev, Y., Filimonov, Y., and Nikitov, S.: Standing spin waves in magnonic crystals, J. Applied Phys. 113 (2013) 093908. (Not IEE SAS).

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Mruczkiewicz, M., Krawczyk, M., Mikhaylovskiy, R., and Kruglyak, V.: Towards high-frequency negative permeability using magnonic crystals in metamaterial design, Phys. Rev. B 86 (2012) 024425. (Not IEE SAS).

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Pal, S., Rana, B., Saha, S., Mandal, R., Hellwig, O., Romero-Vivas, J., Mamica, S., Klos, J.W., Mruczkiewicz, M., Sokolovskyy, M.L., Krawczyk, M., and Barman, A.: Time-resolved measurement of spin-wave spectra in CoO capped [Co(t)/Pt(7 angstrom)](n-1) Co(t) multilayer systems, J. Applied Phys. 111 (2012) 07C507. (Not IEE SAS)

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Krawczyk, M., Mamica, S., Klos, J., Romero-Vivas, J., Mruczkiewicz, M., and Barman, A.: Calculation of spin wave spectra in magnetic nanograins and patterned multilayers with perpendicular anisotropy, J. Applied Phys. 109 (2011) 113903. (Not IEE SAS).

1. Ma, F. S.: J. Applied Phys. 111 (2012) 064326.
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