Pulsed laser deposited superlattices based on perovskite oxides

C. Kwon; Qi Li; K. C. Kim; M. C. Robson; Z. Trajanovic; J. L. Peng; R. L. Greene; A. M. Repaci; C. Lobb; R. Decca; H. D. Drew; R. Ramesh; T. Venkatesan; K. M. Ham; R. Sooryakumar

doi:10.1006/spmi.1996.0020

Pulsed laser deposited superlattices based on perovskite oxides

C. Kwon, Qi Li, K. C. Kim, M. C. Robson, Z. Trajanovic, J. L. Peng, R. L. Greene, A. M. Repaci, C. Lobb, R. Decca, H. D. Drew, R. Ramesh, T. Venkatesan, K. M. Ham, R. Sooryakumar

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Recent advances made in the field of pulsed laser deposited superlattices made up of perovskite oxides are reviewed. The superconducting properties and the effect of adjacent layers in ultra-thin YBCO are studied in YBCC/(Pr_xY_1-x)BCO superlattices. We describe the effects of layering in (La_0.7Ba_0.3)MnO₃ for the purposes of fundamental studies and possible applications of these newly recognized colossal magnetoresistance materials.

Original language	English (US)
Pages (from-to)	169-181
Number of pages	13
Journal	Superlattices and Microstructures
Volume	19
Issue number	3
DOIs	https://doi.org/10.1006/spmi.1996.0020
State	Published - Apr 1996

All Science Journal Classification (ASJC) codes

General Materials Science
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1006/spmi.1996.0020

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title = "Pulsed laser deposited superlattices based on perovskite oxides",

abstract = "Recent advances made in the field of pulsed laser deposited superlattices made up of perovskite oxides are reviewed. The superconducting properties and the effect of adjacent layers in ultra-thin YBCO are studied in YBCC/(PrxY1-x)BCO superlattices. We describe the effects of layering in (La0.7Ba0.3)MnO3 for the purposes of fundamental studies and possible applications of these newly recognized colossal magnetoresistance materials.",

author = "C. Kwon and Qi Li and Kim, {K. C.} and Robson, {M. C.} and Z. Trajanovic and Peng, {J. L.} and Greene, {R. L.} and Repaci, {A. M.} and C. Lobb and R. Decca and Drew, {H. D.} and R. Ramesh and T. Venkatesan and Ham, {K. M.} and R. Sooryakumar",

note = "Funding Information: Acknowledgements—The CMR superlattice research is supported by Office of Naval Research under contract number.",

year = "1996",

month = apr,

doi = "10.1006/spmi.1996.0020",

language = "English (US)",

volume = "19",

pages = "169--181",

journal = "Superlattices and Microstructures",

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publisher = "Academic Press Inc.",

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TY - JOUR

T1 - Pulsed laser deposited superlattices based on perovskite oxides

AU - Kwon, C.

AU - Li, Qi

AU - Kim, K. C.

AU - Robson, M. C.

AU - Trajanovic, Z.

AU - Peng, J. L.

AU - Greene, R. L.

AU - Repaci, A. M.

AU - Lobb, C.

AU - Decca, R.

AU - Drew, H. D.

AU - Ramesh, R.

AU - Venkatesan, T.

AU - Ham, K. M.

AU - Sooryakumar, R.

N1 - Funding Information: Acknowledgements—The CMR superlattice research is supported by Office of Naval Research under contract number.

PY - 1996/4

Y1 - 1996/4

N2 - Recent advances made in the field of pulsed laser deposited superlattices made up of perovskite oxides are reviewed. The superconducting properties and the effect of adjacent layers in ultra-thin YBCO are studied in YBCC/(PrxY1-x)BCO superlattices. We describe the effects of layering in (La0.7Ba0.3)MnO3 for the purposes of fundamental studies and possible applications of these newly recognized colossal magnetoresistance materials.

AB - Recent advances made in the field of pulsed laser deposited superlattices made up of perovskite oxides are reviewed. The superconducting properties and the effect of adjacent layers in ultra-thin YBCO are studied in YBCC/(PrxY1-x)BCO superlattices. We describe the effects of layering in (La0.7Ba0.3)MnO3 for the purposes of fundamental studies and possible applications of these newly recognized colossal magnetoresistance materials.

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DO - 10.1006/spmi.1996.0020

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JO - Superlattices and Microstructures

JF - Superlattices and Microstructures

IS - 3

ER -

Pulsed laser deposited superlattices based on perovskite oxides

Abstract

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