A Tukey-window-based smooth velocity shuttling protocol reduces valley excitations and average spin infidelity in disordered Si/SiGe quantum dots via analytical design and statistical simulations.
Conveyor-mode electron shuttling through a t-junction in si/sige,
2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Experimental demonstration of Ge concentration modulations in Si quantum wells with periods from 2.00 nm to 0.49 nm (including at k0 and 2k0/3), characterized by X-ray and STEM showing high homogeneity and gradients up to 20 at-%/nm, with k·p simulations suggesting valley splitting enhancement in 2k
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Smooth velocity shuttling for suppressing valley excitations in disordered Si/SiGe quantum dots
A Tukey-window-based smooth velocity shuttling protocol reduces valley excitations and average spin infidelity in disordered Si/SiGe quantum dots via analytical design and statistical simulations.
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Sharp periodic Ge concentration modulations beyond the conduction band valley wavevector $k_0$ in nuclear spin-free Si quantum wells
Experimental demonstration of Ge concentration modulations in Si quantum wells with periods from 2.00 nm to 0.49 nm (including at k0 and 2k0/3), characterized by X-ray and STEM showing high homogeneity and gradients up to 20 at-%/nm, with k·p simulations suggesting valley splitting enhancement in 2k