Related papers: A generalized model of the noise spectrum of a two-level fluctuator in the presence of an electron subbath

A generalized model of the noise spectrum of a two-level fluctuator in the presence of an electron subbath

URL: http://arxiv.org/abs/2305.14348v2
Date: Wed, 21 Feb 2024 16:42:51 GMT
Title: A generalized model of the noise spectrum of a two-level fluctuator in the presence of an electron subbath
Authors: Robert E. Throckmorton and S. Das Sarma
Abstract summary: We show that the noise power spectrum of the noise $S(omega)propto e-C/T3/8$ can differ from those of Ahn by several orders of magnitude at low temperatures. We also compare the numerical results that one would obtain from the two models and find that our results for $S(omega)$ can differ from those of Ahn by several orders of magnitude at low temperatures.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The work of Ahn derives the noise power spectrum of a two-level fluctuator (TLF) in the case that it interacts only with a subregion of a full electron bath and thus is subject to a fluctuating temperature. However, Eq.~(1), which gives the variance of the subbath temperature in terms of the heat capacity, in that work carries the implicit assumption that the heat capacity of this subbath may be taken to be a constant, which is a good approximation at higher temperatures, but breaks down at lower temperatures. We thus extend this work to the case in which the fact that the electronic heat capacity of a two-dimensional electron gas (2DEG) $C_V\propto T$, rather than constant in temperature, is fully taken into account. We show that, at low temperatures, the resulting power spectrum of the noise $S(\omega)\propto e^{-C/T^{3/8}}$, in contrast to $S(\omega)\propto e^{-C'/T^{1/3}}$ as found previously, where $C$ and $C'$ are constants. We also compare the numerical results that one would obtain from the two models and find that our results for $S(\omega)$ can differ from those of Ahn by several orders of magnitude at low temperatures.

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