Effect of Domain Boundaries on Dielectric Properties of Lanthanide Oxide based Gate Dielectrics

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autorschaft

  • Apurba Laha
  • Eberhard Bugiel
  • J. X. Wang
  • H. J. Osten
  • A. Fissel

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OriginalspracheEnglisch
Titel des Sammelwerks3rd International Conference on Signals, Circuits and Systems, SCS 2009
PublikationsstatusVeröffentlicht - 2009
Veranstaltung3rd International Conference on Signals, Circuits and Systems, SCS 2009 - Medenine, Tunesien
Dauer: 6 Nov. 20098 Nov. 2009

Publikationsreihe

Name3rd International Conference on Signals, Circuits and Systems, SCS 2009

Abstract

In this work, impact of domain boundaries on dielectric properties of epitaxial Gd2O3 thin films grown on Si(001) substrates with 4° miscut along [110] azimuth were studied. Epitaxial Gd 2O3 layers with and without domain boundaries could be prepared on same Si(001) substrates with 4° miscut when the surface is prepared under special condition prior to the layer growth. A miscut substrate surface with terraces of biatomic steps height could be the crucial point to be succeeded to grow single domain epitaxial Gd2O3 layer. EpiGd2O3 layers without any domain boundaries exhibited significantly lower leakage currents compare to that commonly obtained epitaxial layers with two orthogonal domains. However, for capacitance equivalent thickness below 1 nm, the differences disappear, indicating that for ultra thin layers direct tunneling becomes dominant conduction mechanism. Additionally, a forming gas annealing treatment on these samples could further reduce the leakage current by few orders of magnitudes irrespective of their structure. Here, thinner layers of both structural types exhibited similar electrical properties.

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Effect of Domain Boundaries on Dielectric Properties of Lanthanide Oxide based Gate Dielectrics. / Laha, Apurba; Bugiel, Eberhard; Wang, J. X. et al.
3rd International Conference on Signals, Circuits and Systems, SCS 2009. 2009. 5414203 (3rd International Conference on Signals, Circuits and Systems, SCS 2009).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Laha, A, Bugiel, E, Wang, JX, Osten, HJ & Fissel, A 2009, Effect of Domain Boundaries on Dielectric Properties of Lanthanide Oxide based Gate Dielectrics. in 3rd International Conference on Signals, Circuits and Systems, SCS 2009., 5414203, 3rd International Conference on Signals, Circuits and Systems, SCS 2009, 3rd International Conference on Signals, Circuits and Systems, SCS 2009, Medenine, Tunesien, 6 Nov. 2009. https://doi.org/10.1109/ICSCS.2009.5414203
Laha, A., Bugiel, E., Wang, J. X., Osten, H. J., & Fissel, A. (2009). Effect of Domain Boundaries on Dielectric Properties of Lanthanide Oxide based Gate Dielectrics. In 3rd International Conference on Signals, Circuits and Systems, SCS 2009 Artikel 5414203 (3rd International Conference on Signals, Circuits and Systems, SCS 2009). https://doi.org/10.1109/ICSCS.2009.5414203
Laha A, Bugiel E, Wang JX, Osten HJ, Fissel A. Effect of Domain Boundaries on Dielectric Properties of Lanthanide Oxide based Gate Dielectrics. in 3rd International Conference on Signals, Circuits and Systems, SCS 2009. 2009. 5414203. (3rd International Conference on Signals, Circuits and Systems, SCS 2009). doi: 10.1109/ICSCS.2009.5414203
Laha, Apurba ; Bugiel, Eberhard ; Wang, J. X. et al. / Effect of Domain Boundaries on Dielectric Properties of Lanthanide Oxide based Gate Dielectrics. 3rd International Conference on Signals, Circuits and Systems, SCS 2009. 2009. (3rd International Conference on Signals, Circuits and Systems, SCS 2009).
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abstract = "In this work, impact of domain boundaries on dielectric properties of epitaxial Gd2O3 thin films grown on Si(001) substrates with 4° miscut along [110] azimuth were studied. Epitaxial Gd 2O3 layers with and without domain boundaries could be prepared on same Si(001) substrates with 4° miscut when the surface is prepared under special condition prior to the layer growth. A miscut substrate surface with terraces of biatomic steps height could be the crucial point to be succeeded to grow single domain epitaxial Gd2O3 layer. EpiGd2O3 layers without any domain boundaries exhibited significantly lower leakage currents compare to that commonly obtained epitaxial layers with two orthogonal domains. However, for capacitance equivalent thickness below 1 nm, the differences disappear, indicating that for ultra thin layers direct tunneling becomes dominant conduction mechanism. Additionally, a forming gas annealing treatment on these samples could further reduce the leakage current by few orders of magnitudes irrespective of their structure. Here, thinner layers of both structural types exhibited similar electrical properties.",
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AU - Osten, H. J.

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AB - In this work, impact of domain boundaries on dielectric properties of epitaxial Gd2O3 thin films grown on Si(001) substrates with 4° miscut along [110] azimuth were studied. Epitaxial Gd 2O3 layers with and without domain boundaries could be prepared on same Si(001) substrates with 4° miscut when the surface is prepared under special condition prior to the layer growth. A miscut substrate surface with terraces of biatomic steps height could be the crucial point to be succeeded to grow single domain epitaxial Gd2O3 layer. EpiGd2O3 layers without any domain boundaries exhibited significantly lower leakage currents compare to that commonly obtained epitaxial layers with two orthogonal domains. However, for capacitance equivalent thickness below 1 nm, the differences disappear, indicating that for ultra thin layers direct tunneling becomes dominant conduction mechanism. Additionally, a forming gas annealing treatment on these samples could further reduce the leakage current by few orders of magnitudes irrespective of their structure. Here, thinner layers of both structural types exhibited similar electrical properties.

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