Nonlinear dynamics of non-equilibrium holes in p-type modulation-doped GainNAs/GaAs quantum wells

Hagir Mohammed Khalil; Yun Sun; Naci Balkan; Andreas Amann; Markku Sopanen

doi:10.1186/1556-276X-6-191

Nonlinear dynamics of non-equilibrium holes in p-type modulation-doped GainNAs/GaAs quantum wells

Hagir Mohammed Khalil
, Yun Sun
, Naci Balkan
, Andreas Amann
, Markku Sopanen

School of Mathematical Sciences

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

Abstract

Nonlinear charge transport parallel to the layers of p-modulation-doped GaInNAs/GaAs quantum wells (QWs) is studied both theoretically and experimentally. Experimental results show that at low temperature, T = 13 K, the presence of an applied electric field of about 6 kV/cm leads to the heating of the high mobility holes in the GaInNAs QWs, and their real-space transfer (RST) into the low-mobility GaAs barriers. This results in a negative differential mobility and self-generated oscillatory instabilities in the RST regime. We developed an analytical model based upon the coupled nonlinear dynamics of the real-space hole transfer and of the interface potential barrier controlled by space-charge in the doped GaAs layer. Our simulation results predict dc bias-dependent self- generated current oscillations with frequencies in the high microwave range.

Original language	English
Article number	191
Journal	Nanoscale Research Letters
Volume	6
Issue number	1
DOIs	https://doi.org/10.1186/1556-276X-6-191
Publication status	Published - Jan 2011

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10.1186/1556-276X-6-191

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title = "Nonlinear dynamics of non-equilibrium holes in p-type modulation-doped GainNAs/GaAs quantum wells",

abstract = "Nonlinear charge transport parallel to the layers of p-modulation-doped GaInNAs/GaAs quantum wells (QWs) is studied both theoretically and experimentally. Experimental results show that at low temperature, T = 13 K, the presence of an applied electric field of about 6 kV/cm leads to the heating of the high mobility holes in the GaInNAs QWs, and their real-space transfer (RST) into the low-mobility GaAs barriers. This results in a negative differential mobility and self-generated oscillatory instabilities in the RST regime. We developed an analytical model based upon the coupled nonlinear dynamics of the real-space hole transfer and of the interface potential barrier controlled by space-charge in the doped GaAs layer. Our simulation results predict dc bias-dependent self- generated current oscillations with frequencies in the high microwave range.",

author = "Khalil, \{Hagir Mohammed\} and Yun Sun and Naci Balkan and Andreas Amann and Markku Sopanen",

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T1 - Nonlinear dynamics of non-equilibrium holes in p-type modulation-doped GainNAs/GaAs quantum wells

AU - Khalil, Hagir Mohammed

AU - Sun, Yun

AU - Balkan, Naci

AU - Amann, Andreas

AU - Sopanen, Markku

PY - 2011/1

Y1 - 2011/1

N2 - Nonlinear charge transport parallel to the layers of p-modulation-doped GaInNAs/GaAs quantum wells (QWs) is studied both theoretically and experimentally. Experimental results show that at low temperature, T = 13 K, the presence of an applied electric field of about 6 kV/cm leads to the heating of the high mobility holes in the GaInNAs QWs, and their real-space transfer (RST) into the low-mobility GaAs barriers. This results in a negative differential mobility and self-generated oscillatory instabilities in the RST regime. We developed an analytical model based upon the coupled nonlinear dynamics of the real-space hole transfer and of the interface potential barrier controlled by space-charge in the doped GaAs layer. Our simulation results predict dc bias-dependent self- generated current oscillations with frequencies in the high microwave range.

AB - Nonlinear charge transport parallel to the layers of p-modulation-doped GaInNAs/GaAs quantum wells (QWs) is studied both theoretically and experimentally. Experimental results show that at low temperature, T = 13 K, the presence of an applied electric field of about 6 kV/cm leads to the heating of the high mobility holes in the GaInNAs QWs, and their real-space transfer (RST) into the low-mobility GaAs barriers. This results in a negative differential mobility and self-generated oscillatory instabilities in the RST regime. We developed an analytical model based upon the coupled nonlinear dynamics of the real-space hole transfer and of the interface potential barrier controlled by space-charge in the doped GaAs layer. Our simulation results predict dc bias-dependent self- generated current oscillations with frequencies in the high microwave range.

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DO - 10.1186/1556-276X-6-191

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JO - Nanoscale Research Letters

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Nonlinear dynamics of non-equilibrium holes in p-type modulation-doped GainNAs/GaAs quantum wells

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