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Four-states Multiferroic Memories Embodied Using Mn-doped BaTiO3 Nanorods
슈퍼관리자 2021-05-21

Four-states Multiferroic Memories Embodied Using Mn-doped BaTiO3 Nanorods

  • Authors :

    Jong Y. Son, Jung-Hoon Lee, Seung-Woo Song, Young-Han Shin, and Hyun Myung Jang

  • Journal :

    ACS Nano

  • Vol :

    7

  • Page :

    5522

  • Year :

    2013

Abstract

Multiferroics that show simultaneous ferroic responses have received a great deal of attention by virtue of their potential for enabling new device paradigms. Here, we demonstrate a high-density four-states multiferroic memory using vertically aligned Mn-doped BaTiO3 nanorods prepared by applying the dip-pen nanolithography technique. In the present nanorods array, the polarization (P) switching by an external electric field does not influence the magnetization (M) of the nanorod owing to a negligible degree of the P–M cross-coupling. Similarly, the magnetic-field-induced M switching is unaffected by the ferroelectric polarization. On the basis of these, we are able to implement a four-states nonvolatile multiferroic memory, namely, (+P,+M), (+P,–M) ,(−P,+M), and (−P,–M) with the reliability in the P and M switching. Thus, the present work makes an important step toward the practical realization of multistate ferroic memories.
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