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相关论文: Quantum pumping and dissipation in closed systems

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The amount of charge which is pushed by a moving scatterer is $dQ = -G dX$, where $dX$ is the displacement of the scatterer. The question is what is $G$. Does it depend on the transmission $g_0$ of the scatterer? Does the answer depend on…

介观与纳米尺度物理 · 物理学 2009-11-10 Doron Cohen , Tsampikos Kottos , Holger Schanz

Quantum pumping in closed systems is considered. We explain that the Kubo formula contains all the physically relevant ingredients for the calculation of the pumped charge ($Q$) within the framework of linear response theory. The relation…

介观与纳米尺度物理 · 物理学 2009-11-10 Doron Cohen

Current can be pumped through a closed system by changing parameters (or fields) in time. The Kubo formula allows to distinguish between dissipative and non-dissipative contributions to the current. We obtain a Green function expression and…

介观与纳米尺度物理 · 物理学 2009-11-10 Doron Cohen

Pumping of charge (Q) in a closed ring geometry is not quantized even in the strict adiabatic limit. The deviation form exact quantization can be related to the Thouless conductance. We use Kubo formalism as a starting point for the…

介观与纳米尺度物理 · 物理学 2013-05-29 Doron Cohen

During an adiabatic pumping cycle a conventional two barrier quantum device takes an electron from the left lead and ejects it to the right lead. Hence the pumped charge per cycle is naively expected to be $Q \le e$. This zero order…

介观与纳米尺度物理 · 物理学 2009-11-11 Itamar Sela , Doron Cohen

We study the quantum analog of stirring of water inside a cup using a spoon. This can be regarded as a prototype example for quantum pumping in closed devices. The current in the device is induced by translating a scatterer. Its calculation…

介观与纳米尺度物理 · 物理学 2009-11-11 Gilad Rosenberg , Doron Cohen

Quantum pumping holds great potential for future applications in micro- and nanotechnology. Its main feature, dissipationless charge transport, is theoretically possible via several different mechanisms. However, since no unambiguous…

介观与纳米尺度物理 · 物理学 2009-11-13 Markku Jaaskelainen , Frank Corvino , Christopher P. Search , Vassilios Fessatidis

In the adiabatic and weak-modulation quantum pump, net electron flow is driven from one reservoir to the other by absorbing or emitting an energy quantum $\hbar \omega $ from or to the reservoirs. In our approach, high-order dependence of…

介观与纳米尺度物理 · 物理学 2009-11-09 Rui Zhu

We examine adiabatic quantum pumping generated by an oscillating scatterer embedded in a one-dimensional ballistic ring and compare it with pumping caused by the same scatterer connected to external reservoirs. The pumped current for an…

介观与纳米尺度物理 · 物理学 2009-11-10 M. Moskalets , M. Buttiker

We introduce a mathematical setup for charge transport in quantum pump connected to a number of external leads. It is proved that under rather general assumption on the Hamiltonian describing the system, in the adiabatic limit, the current…

数学物理 · 物理学 2007-05-23 J. E. Avron , A. Elgart , G. M. Graf , L. Sadun , K. Schnee

We review recent theoretical calculations of charge transfer through mesoscopic devices in response to slowly-oscillating, spatially-confined, potentials. The discussion is restricted to non-interacting electrons, and emphasizes the role of…

介观与纳米尺度物理 · 物理学 2007-05-23 Ora Entin-Wohlman , Amnon Aharony , Vyacheslavs Kashcheyevs

We propose a random matrix theory to describe the influence of a time-dependent external field on electron transport through open quantum dots. We describe the generation of the current by an oscillating field for the dot, connected to two…

介观与纳米尺度物理 · 物理学 2009-10-31 Maxim G. Vavilov , V. Ambegaokar , Igor L. Aleiner

We use the equations of motion of non-interacting electrons in a one-dimensional system to numerically study different aspects of charge pumping. We study the effects of the pumping frequency, amplitude, band filling and finite bias on the…

介观与纳米尺度物理 · 物理学 2015-06-25 Amit Agarwal , Diptiman Sen

We consider adiabatic charge transport through an almost open quantum dot. We show that the charge transmitted in one cycle is quantized in the limit of vanishing temperature and one-electron mean level spacing in the dot. The explicit…

介观与纳米尺度物理 · 物理学 2009-10-31 I. L. Aleiner , A. V. Andreev

A circulating current can be induced in the Fermi sea by displacing a scatterer, or more generally by integrating a quantum pump into a closed circuit. The induced current may have either the same or the opposite sense with respect to the…

介观与纳米尺度物理 · 物理学 2008-06-30 Itamar Sela , Doron Cohen

In a mesoscopic system, under zero bias voltage, a finite charge is transferred by quantum adiabatic pumping by adiabatically and periodically changing two or more control parameters. We obtained expressions for the pumped charge for a ring…

介观与纳米尺度物理 · 物理学 2016-09-22 Masahiko Taguchi , Satoshi Nakajima , Toshihiro Kubo , Yasuhiro Tokura

We study electron pumping through a system of barriers, whose heights are deformed adiabatically. We derive a simple formula for the pumped charge $Q$ in terms of the total reflection and transmission amplitudes and phases. The pumped…

介观与纳米尺度物理 · 物理学 2007-05-23 Argha Banerjee , Sourin Das , Sumathi Rao

We study directed transport in periodically forced scattering systems in the regime of fast and strong driving where the dynamics is mixed to chaotic and adiabatic approximations do not apply. The model employed is a square potential well…

介观与纳米尺度物理 · 物理学 2012-10-04 A. Castañeda , T. Dittrich , G. Sinuco

This paper is devoted to the analysis of an abstract formula describing quantum adiabatic charge pumping in a general context. We consider closed systems characterized by a slowly varying time-dependent Hamiltonian depending on an external…

数学物理 · 物理学 2010-02-08 A. Joye , V. Brosco , F. Hekking

The Schroedinger equation with a potential periodically varying in time is used to model adiabatic quantum pumps. The systems considered may be either infinitely extended and gapped or finite and connected to gapless leads. Correspondingly,…

数学物理 · 物理学 2015-05-13 G. Braeunlich , G. M. Graf , G. Ortelli
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