Magnetic Force Microscopy

Direct observation of phase separation in La[sub 0.45]Sr[sub 0.55]MnO[sub 3−δ]

Engineering / Electron Spin Resonance / Applied Physics / Magnetic Force Microscopy / Mathematical Sciences / Physical sciences / Magnetic Resonance / X ray diffraction / Phase Separation / Low Temperature / Specific Heat / Mossbauer Spectroscopy / Short Range Order / Critical Point / Electron Paramagnetic Resonance / Physical sciences / Magnetic Resonance / X ray diffraction / Phase Separation / Low Temperature / Specific Heat / Mossbauer Spectroscopy / Short Range Order / Critical Point / Electron Paramagnetic Resonance

Magnonics Crystal Composed by Magnetic Antivortices Confined in Antidots

Engineering / Electron Beam Lithography / Magnetic thin film / Magnetic Force Microscopy / Low Frequency / Magnetic field / High Frequency / Physical sciences / Oscillations / Magnetic Domains / Dynamic Response / Dynamic Properties / Magnetic field / High Frequency / Physical sciences / Oscillations / Magnetic Domains / Dynamic Response / Dynamic Properties

Magnonics Crystal Composed by Magnetic Antivortices Confined in Antidots

Engineering / Electron Beam Lithography / Magnetic thin film / Magnetic Force Microscopy / Low Frequency / Magnetic field / Quantum Dots / High Frequency / Physical sciences / Oscillations / Magnetic Domains / Dynamic Response / Vortices / Dynamic Properties / Magnetic resonance image / Magnetic field / Quantum Dots / High Frequency / Physical sciences / Oscillations / Magnetic Domains / Dynamic Response / Vortices / Dynamic Properties / Magnetic resonance image

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