We investigate shot noise for quantum dots whose classical phase space consists of both regular and chaotic regions. The noise is systematically suppressed below the universal value of fully chaotic systems, by an amount which varies with the positions of the leads. We analyze the dynamical origin of this effect by a novel way to incorporate diffractive impurity scattering. The dependence of the shot noise on the scattering rate shows that the suppression arises due to the deterministic nature of transport through regular regions and along short chaotic trajectories. Shot noise can be used to probe phase-space structures of quantum dots with generic classical dynamics
The reduction of quantum scattering leads to the suppression of shot noise. In this Letter, we analy...
Abstract. This is a review of shot noise, the time-dependent fluctuations in the electrical current ...
This study proposes a quantitative method to relate the loss of phase coherence in the transmission ...
We investigate shot noise for quantum dots whose classical phase space consists of both regular and ...
Abstract. We study the shot noise by numerically simulating phase-coherent transport through a quant...
We use the open kicked rotator to model the chaotic scattering in a ballistic quantum dot coupled by...
We investigate shot noise of photon-excited electron-hole pairs in open multiterminal, multichannel ...
We present a dynamical analysis of the transport through small quantum cavities with large openings....
Shot noise of series quantum point contacts forming a sequence of cavities in a two-dimensional elec...
We calculate the cumulants of the charge transmitted through a chaotic cavity in the limit that the ...
PACS 73.23.-b – electronic transport in mesoscopic systems Abstract.- We study the crossover between...
We have experimentally studied shot noise of chaotic cavities defined by two quantum point contacts ...
We examine the full counting statistics of quantum dots, which display super-Poissonian shot noise. ...
This work is devoted to the experimental study of quantum electronic shot noise in mesoscopic conduc...
We investigate scattering through chaotic ballistic quantum dots in the Coulomb-blockade regime. Foc...
The reduction of quantum scattering leads to the suppression of shot noise. In this Letter, we analy...
Abstract. This is a review of shot noise, the time-dependent fluctuations in the electrical current ...
This study proposes a quantitative method to relate the loss of phase coherence in the transmission ...
We investigate shot noise for quantum dots whose classical phase space consists of both regular and ...
Abstract. We study the shot noise by numerically simulating phase-coherent transport through a quant...
We use the open kicked rotator to model the chaotic scattering in a ballistic quantum dot coupled by...
We investigate shot noise of photon-excited electron-hole pairs in open multiterminal, multichannel ...
We present a dynamical analysis of the transport through small quantum cavities with large openings....
Shot noise of series quantum point contacts forming a sequence of cavities in a two-dimensional elec...
We calculate the cumulants of the charge transmitted through a chaotic cavity in the limit that the ...
PACS 73.23.-b – electronic transport in mesoscopic systems Abstract.- We study the crossover between...
We have experimentally studied shot noise of chaotic cavities defined by two quantum point contacts ...
We examine the full counting statistics of quantum dots, which display super-Poissonian shot noise. ...
This work is devoted to the experimental study of quantum electronic shot noise in mesoscopic conduc...
We investigate scattering through chaotic ballistic quantum dots in the Coulomb-blockade regime. Foc...
The reduction of quantum scattering leads to the suppression of shot noise. In this Letter, we analy...
Abstract. This is a review of shot noise, the time-dependent fluctuations in the electrical current ...
This study proposes a quantitative method to relate the loss of phase coherence in the transmission ...
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