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Magnetic field control of electric-field-induced local domain growth in manganites of lanthanum strontium manganite single crystals as result of the local bias application by a conducting atomic
Phase separation and locally induced states in manganites is considered for low-doped manganites. It indicates the tendency of manganites toward charge segregation
Phase separation and locally induced states in manganites is considered for low-doped manganites. It indicates the tendency of manganites toward charge segregation
Magnetic field control of electric-field-induced local domain growth in manganites of lanthanum strontium manganite single crystals as result of the local bias application by a conducting atomic
Oxygen nonstoichiometry and magnetic properties of doped manganites La0.7Sr0.3Mn0.95Fe0.05O3-δ in proportion to T3/2. This results in a decrease in the manganite magnetization. The observed temperature
Microscopic State of Low Doped Manganites la1-xSrx MnO3 Probed by ESRMicroscopic State of Low Doped Manganites la1-xSrx MnO3 Probed by ESR
Microscopic State of Low Doped Manganites la1-xSrx MnO3 Probed by ESRMicroscopic State of Low Doped Manganites la1-xSrx MnO3 Probed by ESR
Electron paramagnetic resonance study of (La 0.33Sm 0.67) 0.67Sr 0.33-xBa xMnO 3 (x<0.1): Griffiths phaseManganite compounds (La 0.33Sm 0.67) 0.67Sr 0.33-xBa xMnO 3 with light Ba doping (x=0.01-0.09) have
Superparamagnetic properties of La1 - xSrxMn0.925Zn0.075O3 (x = 0.075, 0.095, and 0.115) lanthanum manganitesLanthanum-strontium manganites doped with zinc are studied by the method of electron magnetic
Electron paramagnetic resonance study of (La 0.33Sm 0.67) 0.67Sr 0.33-xBa xMnO 3 (x<0.1): Griffiths phaseManganite compounds (La 0.33Sm 0.67) 0.67Sr 0.33-xBa xMnO 3 with light Ba doping (x=0.01-0.09) have
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