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Low temperature thermal transport in partially perforated silicon nitride membranes

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Zeitschriftentitel: Applied Physics Letters
Personen und Körperschaften: Yefremenko, V., Wang, G., Novosad, V., Datesman, A., Pearson, J., Divan, R., Chang, C. L., Downes, T. P., McMahon, J. J., Bleem, L. E., Crites, A. T., Meyer, S. S., Carlstrom, J. E.
In: Applied Physics Letters, 94, 2009, 18
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
Physics and Astronomy (miscellaneous)
author_facet Yefremenko, V.
Wang, G.
Novosad, V.
Datesman, A.
Pearson, J.
Divan, R.
Chang, C. L.
Downes, T. P.
McMahon, J. J.
Bleem, L. E.
Crites, A. T.
Meyer, S. S.
Carlstrom, J. E.
Yefremenko, V.
Wang, G.
Novosad, V.
Datesman, A.
Pearson, J.
Divan, R.
Chang, C. L.
Downes, T. P.
McMahon, J. J.
Bleem, L. E.
Crites, A. T.
Meyer, S. S.
Carlstrom, J. E.
author Yefremenko, V.
Wang, G.
Novosad, V.
Datesman, A.
Pearson, J.
Divan, R.
Chang, C. L.
Downes, T. P.
McMahon, J. J.
Bleem, L. E.
Crites, A. T.
Meyer, S. S.
Carlstrom, J. E.
spellingShingle Yefremenko, V.
Wang, G.
Novosad, V.
Datesman, A.
Pearson, J.
Divan, R.
Chang, C. L.
Downes, T. P.
McMahon, J. J.
Bleem, L. E.
Crites, A. T.
Meyer, S. S.
Carlstrom, J. E.
Applied Physics Letters
Low temperature thermal transport in partially perforated silicon nitride membranes
Physics and Astronomy (miscellaneous)
author_sort yefremenko, v.
spelling Yefremenko, V. Wang, G. Novosad, V. Datesman, A. Pearson, J. Divan, R. Chang, C. L. Downes, T. P. McMahon, J. J. Bleem, L. E. Crites, A. T. Meyer, S. S. Carlstrom, J. E. 0003-6951 1077-3118 AIP Publishing Physics and Astronomy (miscellaneous) http://dx.doi.org/10.1063/1.3127232 <jats:p>The thermal transport in partially trenched silicon nitride membranes has been studied in the temperature range from 0.3 to 0.6 K, with the transition edge sensor (TES), the sole source of membrane heating. The test configuration consisted of Mo/Au TESs lithographically defined on silicon nitride membranes 1 μm thick and 6 mm2 in size. Trenches with variable depth were incorporated between the TES and the silicon frame in order to manage the thermal transport. It was shown that sharp features in the membrane surface, such as trenches, significantly impede the modes of phonon transport. A nonlinear dependence of thermal resistance on trench depth was observed. Partial perforation of silicon nitride membranes to control thermal transport could be useful in fabricating mechanically robust detector devices.</jats:p> Low temperature thermal transport in partially perforated silicon nitride membranes Applied Physics Letters
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title Low temperature thermal transport in partially perforated silicon nitride membranes
title_unstemmed Low temperature thermal transport in partially perforated silicon nitride membranes
title_full Low temperature thermal transport in partially perforated silicon nitride membranes
title_fullStr Low temperature thermal transport in partially perforated silicon nitride membranes
title_full_unstemmed Low temperature thermal transport in partially perforated silicon nitride membranes
title_short Low temperature thermal transport in partially perforated silicon nitride membranes
title_sort low temperature thermal transport in partially perforated silicon nitride membranes
topic Physics and Astronomy (miscellaneous)
url http://dx.doi.org/10.1063/1.3127232
publishDate 2009
physical
description <jats:p>The thermal transport in partially trenched silicon nitride membranes has been studied in the temperature range from 0.3 to 0.6 K, with the transition edge sensor (TES), the sole source of membrane heating. The test configuration consisted of Mo/Au TESs lithographically defined on silicon nitride membranes 1 μm thick and 6 mm2 in size. Trenches with variable depth were incorporated between the TES and the silicon frame in order to manage the thermal transport. It was shown that sharp features in the membrane surface, such as trenches, significantly impede the modes of phonon transport. A nonlinear dependence of thermal resistance on trench depth was observed. Partial perforation of silicon nitride membranes to control thermal transport could be useful in fabricating mechanically robust detector devices.</jats:p>
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author Yefremenko, V., Wang, G., Novosad, V., Datesman, A., Pearson, J., Divan, R., Chang, C. L., Downes, T. P., McMahon, J. J., Bleem, L. E., Crites, A. T., Meyer, S. S., Carlstrom, J. E.
author_facet Yefremenko, V., Wang, G., Novosad, V., Datesman, A., Pearson, J., Divan, R., Chang, C. L., Downes, T. P., McMahon, J. J., Bleem, L. E., Crites, A. T., Meyer, S. S., Carlstrom, J. E., Yefremenko, V., Wang, G., Novosad, V., Datesman, A., Pearson, J., Divan, R., Chang, C. L., Downes, T. P., McMahon, J. J., Bleem, L. E., Crites, A. T., Meyer, S. S., Carlstrom, J. E.
author_sort yefremenko, v.
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container_title Applied Physics Letters
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description <jats:p>The thermal transport in partially trenched silicon nitride membranes has been studied in the temperature range from 0.3 to 0.6 K, with the transition edge sensor (TES), the sole source of membrane heating. The test configuration consisted of Mo/Au TESs lithographically defined on silicon nitride membranes 1 μm thick and 6 mm2 in size. Trenches with variable depth were incorporated between the TES and the silicon frame in order to manage the thermal transport. It was shown that sharp features in the membrane surface, such as trenches, significantly impede the modes of phonon transport. A nonlinear dependence of thermal resistance on trench depth was observed. Partial perforation of silicon nitride membranes to control thermal transport could be useful in fabricating mechanically robust detector devices.</jats:p>
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spelling Yefremenko, V. Wang, G. Novosad, V. Datesman, A. Pearson, J. Divan, R. Chang, C. L. Downes, T. P. McMahon, J. J. Bleem, L. E. Crites, A. T. Meyer, S. S. Carlstrom, J. E. 0003-6951 1077-3118 AIP Publishing Physics and Astronomy (miscellaneous) http://dx.doi.org/10.1063/1.3127232 <jats:p>The thermal transport in partially trenched silicon nitride membranes has been studied in the temperature range from 0.3 to 0.6 K, with the transition edge sensor (TES), the sole source of membrane heating. The test configuration consisted of Mo/Au TESs lithographically defined on silicon nitride membranes 1 μm thick and 6 mm2 in size. Trenches with variable depth were incorporated between the TES and the silicon frame in order to manage the thermal transport. It was shown that sharp features in the membrane surface, such as trenches, significantly impede the modes of phonon transport. A nonlinear dependence of thermal resistance on trench depth was observed. Partial perforation of silicon nitride membranes to control thermal transport could be useful in fabricating mechanically robust detector devices.</jats:p> Low temperature thermal transport in partially perforated silicon nitride membranes Applied Physics Letters
spellingShingle Yefremenko, V., Wang, G., Novosad, V., Datesman, A., Pearson, J., Divan, R., Chang, C. L., Downes, T. P., McMahon, J. J., Bleem, L. E., Crites, A. T., Meyer, S. S., Carlstrom, J. E., Applied Physics Letters, Low temperature thermal transport in partially perforated silicon nitride membranes, Physics and Astronomy (miscellaneous)
title Low temperature thermal transport in partially perforated silicon nitride membranes
title_full Low temperature thermal transport in partially perforated silicon nitride membranes
title_fullStr Low temperature thermal transport in partially perforated silicon nitride membranes
title_full_unstemmed Low temperature thermal transport in partially perforated silicon nitride membranes
title_short Low temperature thermal transport in partially perforated silicon nitride membranes
title_sort low temperature thermal transport in partially perforated silicon nitride membranes
title_unstemmed Low temperature thermal transport in partially perforated silicon nitride membranes
topic Physics and Astronomy (miscellaneous)
url http://dx.doi.org/10.1063/1.3127232