Volume 516, Issue 1-2 pp. 48-51

Original Paper

Colossal magnetoresistive manganite thin-films for infrared detection and imaging

M.A. Todd,

Corresponding Author

M.A. Todd

[email protected]

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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P.P. Donohue,

P.P. Donohue

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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P.J. Wright,

P.J. Wright

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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M.J. Crosbie,

M.J. Crosbie

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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P.A. Lane,

P.A. Lane

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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M.-H. Jo,

M.-H. Jo

University of Cambridge, Dept. of Materials Science, Pembroke St., Cambridge, CB2 3QZ, United Kingdom

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B.S.H. Pang,

B.S.H. Pang

University of Cambridge, Dept. of Materials Science, Pembroke St., Cambridge, CB2 3QZ, United Kingdom

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M.G. Blamire,

M.G. Blamire

University of Cambridge, Dept. of Materials Science, Pembroke St., Cambridge, CB2 3QZ, United Kingdom

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M.A. Todd,

Corresponding Author

M.A. Todd

[email protected]

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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P.P. Donohue,

P.P. Donohue

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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P.J. Wright,

P.J. Wright

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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M.J. Crosbie,

M.J. Crosbie

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

Search for more papers by this author

P.A. Lane,

P.A. Lane

QinetiQ, Malvern Technology Centre, St. Andrews Road, Malvern, WR14 3PS, United Kingdom

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M.-H. Jo,

M.-H. Jo

University of Cambridge, Dept. of Materials Science, Pembroke St., Cambridge, CB2 3QZ, United Kingdom

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B.S.H. Pang,

B.S.H. Pang

University of Cambridge, Dept. of Materials Science, Pembroke St., Cambridge, CB2 3QZ, United Kingdom

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M.G. Blamire,

M.G. Blamire

University of Cambridge, Dept. of Materials Science, Pembroke St., Cambridge, CB2 3QZ, United Kingdom

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First published: 10 February 2004

https://doi.org/10.1002/andp.200451601-210

Citations: 1

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Abstract

The sharp metal-to-insulator transition observed in several colossal magnetoresistive manganite (CMR) materials has led to interest in the use of CMR thin-films as bolometric detectors of infrared radiation. We have confirmed that with optimum growth and processing conditions, both high TCR (up to 30%/K) and low excess noise properties can be achieved in pulsed-laser deposited La_0.7Ca_0.3MnO₃ thin films. These offer unprecendented levels of performance if used as resistance bolometers, however a degree of cooling from room temperature will be required to achieve maximum bolometer performance. We have shown that La_xBa_1-xMnO₃ is a candidate for uncooled bolometer operation and demonstrated room-temperature TCR values of 5%/K in both laser-deposited and liquid-delivery CVD deposited LBMO films. Further enhancement to these figures is expected with optimised processing.

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Volume516, Issue1-2

January 2004

Pages 48-51

Colossal magnetoresistive manganite thin-films for infrared detection and imaging

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References

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Colossal magnetoresistive manganite thin-films for infrared detection and imaging

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References

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