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相关论文: Quantum entanglement generation with surface acous…

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A weakly bound electron in a semiconductor quantum wire is shown to become entangled with an itinerant electron via the coulomb interaction. The degree of entanglement and its variation with energy of the injected electron, may be tuned by…

介观与纳米尺度物理 · 物理学 2009-11-11 J. H. Jefferson , A. Ramsak , T. Rejec

Entanglement can be generated by two electrons in a spin-zero state on a semiconducting single-walled carbon nanotube. The two electrons, one weakly bound in a shallow well in the conduction band, and the other injected into the conduction…

介观与纳米尺度物理 · 物理学 2007-05-23 D. Gunlycke , J. H. Jefferson , T. Rejec , A. Ramsak , D. G. Pettifor , G. A. D. Briggs

Surface acoustic waves (SAWs) can create moving quantum dots in piezoelectric materials. Here we show how electron-spin qubits located on dynamic quantum dots can be entangled. Previous theoretical and numerical models of quantum-dot…

Spin-orbit qubit (SOQ) is the dressed spin by the orbital degree of freedom through a strong spin-orbit coupling. We show that Coulomb interaction between two electrons in quantum dots located separately in two nanowires can efficiently…

介观与纳米尺度物理 · 物理学 2015-06-17 Y. N. Fang , Yusuf Turek , J. Q. You , C. P. Sun

This Letter presents a method of electron entanglement generation. The system under consideration is a single-level quantum dot with one input and two output leads. The leads are arranged such that the dot is empty, single electron…

量子物理 · 物理学 2009-11-07 William D. Oliver , F. Yamaguchi , Y. Yamamoto

A shallow potential well in a near-perfect quantum wire will bind a single-electron and behave like a quantum dot, giving rise to spin-dependent resonances of propagating electrons due to Coulomb repulsion and Pauli blocking. It is shown…

介观与纳米尺度物理 · 物理学 2008-04-02 J. H. Jefferson , A. Ramsak , T. Rejec

We propose a method of generating fully entangled electron spin pairs using an open static quantum dot and a moving quantum dot, realized by the propagation of a surface acoustic wave (SAW) along a quasi-one-dimensional channel in a…

介观与纳米尺度物理 · 物理学 2009-11-13 G. Giavaras , J. H. Jefferson , M. Fearn , C. J. Lambert

We propose schemes for generating spatially-separated spin entanglement in systems of two quantum dots with onsite Coulomb repulsion weakly coupled to a joint electron reservoir. An enhanced probability for the formation of spin…

介观与纳米尺度物理 · 物理学 2009-11-11 Stefan Legel , Jürgen König , Guido Burkard , Gerd Schön

We describe in detail a set of ideas for implementing qubits, quantum gates and quantum gate networks in a semiconductor heterostructure device. Our proposal is based on an extension of the technology used for surface acoustic wave (SAW)…

介观与纳米尺度物理 · 物理学 2009-10-31 C. H. W. Barnes , J. M. Shilton , A. M. Robinson

Spin-entanglement of two electrons occupying two spatial regions -- domains -- is expressed in a compact form in terms of spin-spin correlation functions. The power of the formalism is demonstrated on several examples ranging from…

介观与纳米尺度物理 · 物理学 2009-04-10 A. Ramsak , J. Mravlje , T. Rejec

We propose a simple setup of three coupled quantum dots in the Coulomb blockade regime as a source for spatially separated currents of spin-entangled electrons. The entanglement originates from the singlet ground state of a quantum dot with…

介观与纳米尺度物理 · 物理学 2009-11-07 Daniel S. Saraga , Daniel Loss

The localization of two interacting electrons in a coupled-quantum-dots semiconductor structure is demonstrated through numerical calculations of the time evolution of the two-electron wave function including the Coulomb interaction between…

介观与纳米尺度物理 · 物理学 2009-10-31 P. I. Tamborenea , H. Metiu

We theoretically explore the possibility of creating spin quantum entanglement in a system of two electrons confined respectively in two vertically coupled quantum dots in the presence of Rashba type spin-orbit coupling. We find that the…

介观与纳米尺度物理 · 物理学 2009-11-11 Nan Zhao , L. Zhong , Jia-Lin Zhu , C. P. Sun

We discuss a technique and a material system that enable the controlled realization of quantum entanglement between spin-wave modes of electron ensembles in two spatially separated pieces of semiconductor material. The approach uses…

介观与纳米尺度物理 · 物理学 2009-10-12 C. H. van der Wal , M. Sladkov

In this work, we provided a proof-of-principle of efficient production of maximally entangled states using charged quantum dots coupled to vibrational modes. The physical system consists of two pairs of quantum dots, each pair with a single…

介观与纳米尺度物理 · 物理学 2019-10-23 F. M. Souza , P. A. Oliveira , L. Sanz

We develop a quantum theory of the nonlinear interaction between intense surface acoustic waves and electrons of a quantum well in the regime of moving quantum wires and dots. The quantum nonlinear interaction qualitatively differs from the…

介观与纳米尺度物理 · 物理学 2007-05-23 A. O. Govorov , A. V. Kalameitsev , V. M. Kovalev

We consider a three-port single-level quantum dot system with one input and two output leads. Instead of considering an empty dot, we study the situations that two input electrons co-tunnel through the quantum dot occupied by one or two dot…

量子物理 · 物理学 2007-05-23 Chih-Lung Chou

We study two trapped ions coupled to the axial phonon modes of a one-dimensional Coulomb crystal. This system is formally equivalent to the "two spin-boson" model. We propose a scheme to dynamically generate a maximally entangled state of…

量子物理 · 物理学 2011-08-02 H. T. Ng , S. Bose

We propose how to generate genuine multipartite entanglement of electron spin qubits in a chain of quantum dots using the naturally available single-qubit rotations and two-qubit Heisenberg exchange interaction in the system. We show that…

介观与纳米尺度物理 · 物理学 2007-11-14 F. Bodoky , M. Blaauboer

We propose and numerically simulate a semiconductor device based on coupled quantum wires, suitable for deterministic quantum teleportation of electrons trapped in the minima of surface acoustic waves.We exploit a network of interacting…

量子物理 · 物理学 2010-01-29 Fabrizio Buscemi , Paolo Bordone , Andrea Bertoni
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