2002
DOI: 10.1103/physrevb.65.125307
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Negative differential capacitance of quantum dots

Abstract: The dependence of charges accumulated on a quantum dot under an external voltage bias is studied. The charge is sensitive to the changes of number of filled levels and the number of conducting levels ͑channels͒. We clarify that there are two possible outcomes of applying a bias. ͑a͒ The number of conducting channels increases, but the number of filled levels decreases. ͑b͒ The number of filled levels increases or does not change while the number of conducting channels ͑levels͒ increases with the bias. In case … Show more

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Cited by 59 publications
(56 citation statements)
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“…Thus, at high V b , the charge accumulated on a conductive energy level decreases with increasing V b , since the ratio between the incoming and outcoming transmission coefficient decreases with V b . 26 NDR almost does not appear in the largest QD [ Fig. 7(b)] due to a reduced presence of isolated peaks in the DOS, as reported in Figs. 7(e)-7(f).…”
Section: B Description Of I-v Characteristicssupporting
confidence: 57%
See 1 more Smart Citation
“…Thus, at high V b , the charge accumulated on a conductive energy level decreases with increasing V b , since the ratio between the incoming and outcoming transmission coefficient decreases with V b . 26 NDR almost does not appear in the largest QD [ Fig. 7(b)] due to a reduced presence of isolated peaks in the DOS, as reported in Figs. 7(e)-7(f).…”
Section: B Description Of I-v Characteristicssupporting
confidence: 57%
“…Different structural models have been proposed to describe SiQDs and optical, structural, and electrical properties have been widely reported using density functional theory (DFT). [16][17][18][19][20][21][22][23] From a fundamental point of view many novel electronic transport phenomena have been discovered, such as a staircaselike current-voltage (I-V) characteristic, 24 Coulomb blockade oscillation, 25 negative differential resistance, 4,26 or the Kondo effect. 27 Researchers have mostly concentrated on the study of single and two QDs using the nonequilibrium Green's functions formalism (NEGFF) 26,[28][29][30] with one level of energy and constant transition rates.…”
Section: Introductionmentioning
confidence: 99%
“…Approximations must be adopted in order to limit the computational effort, like using a reduced system size, or employing a simplified approach. Most of the available studies on single-and two-QDs have been performed by using nonequilibrium Green functions formalism (NEGFF) with constant transition rates between QDs and one energy level per QD [31][32][33][34][35][36] , and by using tunneling transmission coefficients with planar Si/SiO 2 values for the barrier height, and bulk-Si band gap. [37][38][39][40] Here we make use of a different approach, 41-43 based on the transfer Hamiltonian formalism and non-coherent rate equations to describe the current, that takes into account the local potential due to the QD charge, com-V FIG.…”
Section: Structures and Methodsmentioning
confidence: 99%
“…There are also other antiresonances in the transmission probability as shown in Fig.2(b), we will attribute them to the fact the ring is coupled with the leads. For the system with large bias voltage between leads, multi-levels in the ring are involved in the electron conducting [33], therefore one may expect that the energy dependent transmission probability in the energy range between left and right chemical potentials are essential to the out of equilibrium transport properties of this system. However, we shall focus our attention on the linear response regime in the present paper.…”
mentioning
confidence: 99%