Jesper Pedersen, Christian Flindt, Niels Asger Mortensen, Antti-Pekka Jauho
Published 2008-01-07Version 1
We suggest and study designed defects in an otherwise periodic potential modulation of a two-dimensional electron gas as an alternative approach to electron spin based quantum information processing in the solid-state using conventional gate-defined quantum dots. We calculate the band structure and density of states for a periodic potential modulation, referred to as an antidot lattice, and find that localized states appear, when designed defects are introduced in the lattice. Such defect states may form the building blocks for quantum computing in a large antidot lattice, allowing for coherent electron transport between distant defect states in the lattice and tunnel coupling of neighboring defect states with corresponding electrostatically controllable exchange coupling between different electron spins.
Comments: 9 pages, 9 figures
Journal: Phys. Rev. B 77, 045325 (2008).
Strong coupling of spin qubits to a transmission line resonator
Single-shot initialization of electron spin in a quantum dot using a short optical pulse
Spectrum of an electron spin coupled to an unpolarized bath of nuclear spins
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