149 results on '"Wesselinowa, Julia M."'
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2. Magnetic Field Effect on the Electric and Dielectric Properties of the Linear Magnetoelectric Compound Co 4 Nb 2 O 9.
3. Theoretical Study of Magnetization and Electrical Conductivity of Ion‐Doped KBiFe2O5 Nanoparticles
4. Theoretical Study of the Multiferroic Properties of Ion-Doped CaBaCo4O7
5. Multiferroic and phonon properties of pure and ion doped CoCr2O4 - Bulk and nanoparticles
6. Multiferroic and Phonon Properties of the Double Perovskite Pr 2 FeAlO 6.
7. Theoretical Study of the Multiferroic Properties of Pure and Ion-Doped Pb 5 M 3 F 19 , M = Fe, Cr, Al.
8. A Theoretical Study of the Effects of Co-Doping Ions at K and Nb Sites on the Properties of KNbO 3 Nanoparticles.
9. Theoretical Study of Co-Doping Effects with Different Ions on the Multiferroic Properties of BiFeO 3 Nanoparticles.
10. Theoretical Study of Magnetization and Electrical Conductivity of Ion‐Doped KBiFe2O5 Nanoparticles.
11. Bandgap Energy of Ion‐Doped LaMnO3 Nanoparticles
12. Electric, Dielectric, and Phonon Properties of Cu2OCl2
13. Competition between Electron–Phonon and Spin–Phonon Interaction on the Band Gap and Phonon Spectrum in Magnetic Semiconductors
14. Electric, Dielectric, and Phonon Properties of Cu2OCl2.
15. Origin of Multiferroism of Ion Doped at Different Sites: Bi4Ti3O12 Bulk and Nanoparticles
16. Band Gap and Polarization Tuning of Ion-Doped X NbO 3 (X = Li, K, Na, Ag) for Photovoltaic and Energy Storage Applications.
17. Magnetic and dielectric properties of pure and ion doped RCrO3 nanoparticles
18. Origin of Multiferroism of Ion Doped at Different Sites: Bi4Ti3O12 Bulk and Nanoparticles.
19. Band Gap Energy of Ion‐Doped Multiferroic NaFeO2 Nanoparticles.
20. Theoretical study of the multiferroic properties in M-doped (M=Co, Cr, Mg) ZnO thin films
21. Multiferroic behavior of BTO-Nanoparticles
22. Comparison of the Multiferroic Properties of Ion‐Doped Hexagonal LuFeO3 and LaFeO3.
23. Theory of magnetic field control on polarization in multiferroic RCrO3 compounds
24. Multiferroic Properties of Pure and Ion‐Doped BiCrO3 Bulk and Thin Films
25. Application of Ion‐Doped Y3Fe5O12 Nanoparticles for Self‐Controlled Magnetic Hyperthermia
26. Phonon excitations and magnetoelectric coupling in multiferroic RMn2O5
27. Dielectric Properties of Relaxor CuCrO 2 at Room Temperature
28. Multiferroic Properties of Pure, Transition‐Metal and Rare‐Earth–Doped BaFe12O19 Nanoparticles
29. Multiferroic Properties of Pure and Transition Metal Doped LaFeO 3 Nanoparticles
30. Dielectric Properties in Transition Metal and Rare‐Earth‐Doped Multiferroic BaTiO 3 Nanoparticles
31. Application of Ion‐Doped Y3Fe5O12 Nanoparticles for Self‐Controlled Magnetic Hyperthermia.
32. Modified Heisenberg model for the zig-zag structure in multiferroic RMn2O5.
33. Modified Heisenberg model for the zig-zag structure in multiferroic RMn2O5.
34. Dielectric Properties of Relaxor CuCrO2 at Room Temperature.
35. Origin of Ferromagnetism in Pure and Ion Doped Pyrite FeS 2 Nanoparticles
36. Multiferroic Properties of Pure, Transition‐Metal and Rare‐Earth–Doped BaFe12O19 Nanoparticles.
37. Origin of ferromagnetism in transition metal doped BaTiO3.
38. Dielectric Properties in Transition Metal and Rare‐Earth‐Doped Multiferroic BaTiO3 Nanoparticles.
39. Magnetic Properties of Rare Earth Doped SnO2 , TiO2 and CeO2 Nanoparticles
40. Theoretical Study of the Co‐doping Effects at Sr and Fe Sites on the Magnetic and Optical Properties of SrFe12O19.
41. La1−x Sr x MnO3 Nanoparticles for Magnetic Hyperthermia
42. Theoretical Study of the Multiferroic Behavior of the Magnetic Relaxor Ferroelectric CdCr2S4
43. Dielectric properties of multiferroic CuCrO2
44. Electric, Dielectric, and Phonon Properties of Cu2OCl2.
45. Magnetic Properties of Rare Earth Doped SnO2, TiO2 and CeO2 Nanoparticles.
46. La1−xSrxMnO3 Nanoparticles for Magnetic Hyperthermia.
47. Modified Heisenberg model for the zig-zag structure in multiferroic RMn2O5
48. Some Critical Properties of the s-d Model
49. Relaxation Time for Ferromagnetic Semiconductors
50. The s-d Model Applied to CdCr2Se4 and HgCr2Se4
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