Hole Spin Relaxation in Ge/Si Core-Shell Nanowire Qubits
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Controlling decoherence is the most challenging task in realizing quantum information hardware. Single electron spins in gallium arsenide are a leading candidate among solid- state implementations, however strong coupling to nuclear spins in the substrate hinders this approach. To realize spin qubits in a nuclear-spin-free system, intensive studies based on group-IV semiconductor are being pursued. In this case, the challenge is primarily control of materials and interfaces, and device nanofabrication. We report important steps toward implementing spin qubits in a predominantly nuclear-spin-free system by demonstrating state preparation, pulsed gate control, and charge-sensing spin readout of confined hole spins in a one-dimensional Ge/Si nanowire. With fast gating, we measure T1 spin relaxation times in coupled quantum dots approaching 1 ms, increasing with lower magnetic field, consistent with a spin-orbit mechanism that is usually masked by hyperfine contributions.
Originalsprog | Engelsk |
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Tidsskrift | Nature Nanotechnology |
Vol/bind | 7 |
Sider (fra-til) | 47-50 |
ISSN | 1748-3387 |
DOI | |
Status | Udgivet - 21 okt. 2011 |
Eksternt udgivet | Ja |
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