Zhong Cao scite author profile

)This work reviews and examines two particular issues related with the new technique of electrical detection of ferromagnetic resonance (FMR). This powerful technique has been broadly applied for studying magnetization and spin dynamics over the past few years. The first issue is the relation and distinction between different mechanisms that give rise to a photovoltage via FMR in composite magnetic structures, and the second is the proper analysis of the FMR line shape, which remains the "Achilles heel" in interpreting experimental results, especially for either studying the spin pumping effect or quantifying the spin Hall angles via the electrically detected FMR.

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Spintronic microwave imaging

Cao

Lü

et al. 2013

Appl. Phys. A

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Microwave reflection imaging using a magnetic tunnel junction based spintronic microwave sensor

Cao

Hemour

et al. 2012

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A far-field microwave imaging technique has been developed using a spintronic sensor based on a magnetic tunnel junction (MTJ). Such a sensor can directly rectify a microwave field into a dc voltage signal using the Seebeck effect. Thanks to the high conversion efficiency of the microwave rectification in MTJs, the microwave power sensitivity of the spintronic sensor is on the order of 1–10 mV/mW. This high sensitivity allows the sensor to directly measure the coherent spatial scattered microwave field distribution, which gives it the ability to non-destructively detect hidden objects down to a few wavelengths in size.

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Nondestructive two-dimensional phase imaging of embedded defects via on-chip spintronic sensor

Cao

Harder

et al. 2012

Appl. Phys. Lett.

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Zhong Cao

Analysis of the line shape of electrically detected ferromagnetic resonance

Spintronic microwave imaging

Microwave reflection imaging using a magnetic tunnel junction based spintronic microwave sensor

Nondestructive two-dimensional phase imaging of embedded defects via on-chip spintronic sensor

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