1. Colossal magnetoresistive manganite-based ferroelectric field-effect transistor on Si.
- Author
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T. Zhao, Kyung-Ho, S. B. Ogale, Kyung-Ho, S. R. Shinde, Kyung-Ho, R. Ramesh, R. Droopad, Kyung-Ho, J. Yu, K. Eisenbeiser, Kyung-Ho, and J. Misewich, Kyung-Ho
- Subjects
PULSED laser deposition ,FIELD-effect transistors ,MAGNETIC fields ,ELECTRIC fields ,HYSTERESIS loop ,ELECTRIC resistance - Abstract
An all-perovskite ferroelectric field-effect transistor with a ferroelectric Pb(Zr[sub 0.2]Ti[sub 0.8])O[sub 3] (PZT) gate and a colossal magnetoresistive La[sub 0.8]Ca[sub 0.2]MnO[sub 3] (LCMO) channel has been successfully fabricated by pulsed-laser deposition on Si. A clear and square channel resistivity hysteresis loop, commensurate with the ferroelectric hysteresis loop of PZT, is observed. A maximum modulation of 20% after an electric field poling of 1.5×10[sup 5] V/cm, and 50% under a magnetic field of 1 T, are achieved near the metal-insulator transition temperature of the LCMO channel. A data retention time of at least one day is measured. The effects of electric and magnetic fields on the LCMO channel resistance are discussed within the framework of phase separation scenario. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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