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Multiferroic Bi0.7Dy0.3FeO3 films as high k dielectric material for advanced non-volatile memory devices

Multiferroic Bi0.7Dy0.3FeO3 films as high k dielectric material for advanced non-volatile memory devices

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Gate dielectric materials having high dielectric constant, low interface state density and good thermal stability are needed for advanced CMOS applications. In this Letter, the electrical properties of novel multiferroic Bi0.7Dy0.3FeO3 (BDFO) thin films deposited using the pulsed laser deposition technique on p-type (100) silicon substrate are reported. Using high frequency capacitance-voltage (C-V) measurements, the dielectric constant, effective oxide charge density and interface state density were estimated. The results suggest the potential application of multiferroic BDFO films as gate dielectric material for novel memory devices that can be electrically written and magnetically read.

Inspec keywords: multiferroics; pulsed laser deposition; permittivity; thermal stability; silicon; random-access storage; high-k dielectric thin films; CMOS integrated circuits; dysprosium compounds; bismuth compounds

Other keywords: capacitance-voltage measurements; oxide charge density; thermal stability; p-type silicon substrate; multiferroic thin films; electrical properties; high k dielectric material; dielectric constant; Bi0.7Dy0.3FeO3; nonvolatile memory devices; advanced CMOS applications; pulsed laser deposition

Subjects: Memory circuits; Dielectric materials and properties; Semiconductor storage; CMOS integrated circuits

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http://iet.metastore.ingenta.com/content/journals/10.1049/el.2009.0712
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