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Thin Film Ferroelectric Materials and Devices

  • Book
  • © 1997

Overview

Editors:
  1. R. Ramesh

    1. University of Maryland at College Park, USA

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Part of the book series: Electronic Materials: Science & Technology (EMST, volume 3)

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Table of contents (9 chapters)

  1. Front Matter

    Pages i-vii
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  2. (Ba,Sr)TiO3 Thin Films for Dram’s

    • Scott R. Summerfelt
    Pages 1-42

  3. (Ba,Sr)TiO3 Films and Process Integration for Dram Capacitor

    • Noboru Mikami
    Pages 43-70

  4. Elastic Domains in Ferroelectric Epitaxial Films

    • Alexander L. Roytburd
    Pages 71-90

  5. Study of Growth Processes in Ferroelectric Films and Layered Heterostructures via in Situ, Real-Time Ion Beam Analysis

    • Orlando Auciello, Alan R. Krauss, Jaemo Im
    Pages 91-113

  6. Layered Perovskite Thin Films and Memory Devices

    • James F. Scott
    Pages 115-144

  7. Pb(Zr,Ti)O3 Based Thin Film Ferroelectric Nonvolatile Memories

    • B. A. Tuttle
    Pages 145-165

  8. Chemical Vapor Deposition of Ferroelectric Thin Films

    • Christopher M. Foster
    Pages 167-197

  9. Degradation Mechanisms and Reliability Issues for Ferroelectric Thin Films

    • Duane Dimos, William L. Warren, Husam N. Al-Shareef
    Pages 199-219

  10. Low Voltage Performance in Lead Based Ferroelectric Thin Film Memory Elements with (La,Sr)CoO3 Electrodes

    • S. Aggarwal, B. Yang, R. Ramesh
    Pages 221-241

  11. Back Matter

    Pages 243-249
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Keywords

About this book

The past five years have witnessed some dramatic developments in the general area of ferroelectric thin films materials and devices. Ferroelectrics are not new materials by any stretch ofimagination. Indeed, they have been known since the early partofthis century and popular ferroelectric materials such as Barium Titanate have been in use since the second world war. In the late sixties and seventies, a considerable amountofresearch and development effort was made to create a solid state nonvolatile memory using ferroelectrics in a vary simple matrix-addressed scheme. These attempts failed primarily due to problems associated with either the materials ordue to device architectures. The early eighties saw the advent of new materials processing approaches, such as sol-gel processing, that enabled researchers to fabricate sub-micron thin films of ferroelectric materials on a silicon substrate. These pioneering developments signaled the onsetofa revival in the areaofferroelectric thin films, especially ferroelectric nonvolatile memories. Research and development effort in ferroelectric materials and devices has now hit a feverish pitch, Many university laboratories, national laboratories and advanced R&D laboratories oflarge IC manufacturers are deeply involved in the pursuit of ferroelectric device technologies. Many companies worldwide are investing considerable manpower and resources into ferroelectric technologies. Some have already announced products ranging from embedded memories in micro­ controllers, low density stand-alone memories, microwave circuit elements, andrf identification tags. There is now considerable optimism that ferroelectric devices andproducts will occupy a significant market-share in the new millennium.

Editors and Affiliations

  • University of Maryland at College Park, USA

    R. Ramesh

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