Merritt P. Losert scite author profile

Electron spins in Si/SiGe quantum wells suffer from nearly degenerate conduction band valleys, which compete with the spin degree of freedom in the formation of qubits. Despite attempts to enhance the valley energy splitting deterministically, by engineering a sharp interface, valley splitting fluctuations remain a serious problem for qubit uniformity, needed to scale up to large quantum processors. Here, we elucidate and statistically predict the valley splitting by the holistic integration of 3D atomic-level properties, theory and transport. We find that the concentration fluctuations of Si and Ge atoms within the 3D landscape of Si/SiGe interfaces can explain the observed large spread of valley splitting from measurements on many quantum dot devices. Against the prevailing belief, we propose to boost these random alloy composition fluctuations by incorporating Ge atoms in the Si quantum well to statistically enhance valley splitting.

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SiGe quantum wells with oscillating Ge concentrations for quantum dot qubits

McJunkin

Harpt

Feng

et al. 2022

Nat Commun

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Large-scale arrays of quantum-dot spin qubits in Si/SiGe quantum wells require large or tunable energy splittings of the valley states associated with degenerate conduction band minima. Existing proposals to deterministically enhance the valley splitting rely on sharp interfaces or modifications in the quantum well barriers that can be difficult to grow. Here, we propose and demonstrate a new heterostructure, the “Wiggle Well”, whose key feature is Ge concentration oscillations inside the quantum well. Experimentally, we show that placing Ge in the quantum well does not significantly impact our ability to form and manipulate single-electron quantum dots. We further observe large and widely tunable valley splittings, from 54 to 239 μeV. Tight-binding calculations, and the tunability of the valley splitting, indicate that these results can mainly be attributed to random concentration fluctuations that are amplified by the presence of Ge alloy in the heterostructure, as opposed to a deterministic enhancement due to the concentration oscillations. Quantitative predictions for several other heterostructures point to the Wiggle Well as a robust method for reliably enhancing the valley splitting in future qubit devices.

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How Valley-Orbit States in Silicon Quantum Dots Probe Quantum Well Interfaces

et al. 2022

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Effect of Quantum Hall Edge Strips on Valley Splitting in Silicon Quantum Wells

et al. 2020

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We determine the energy splitting of the conduction-band valleys in two-dimensional electrons confined to low-disorder Si quantum wells. We probe the valley splitting dependence on both perpendicular magnetic field B and Hall density by performing activation energy measurements in the quantum Hall regime over a large range of filling factors. The mobility gap of the valley-split levels increases linearly with B and is strikingly independent of Hall density. The data are consistent with a transport model in which valley splitting depends on the incremental changes in density eB=h across quantum Hall edge strips, rather than the bulk density. Based on these results, we estimate that the valley splitting increases with density at a rate of 116 μeV=10 11 cm −2 , which is consistent with theoretical predictions for near-perfect quantum well top interfaces.

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SiGe quantum wells with oscillating Ge concentrations for quantum dot qubits

McJunkin¹,

Harpt²,

Feng³

et al. 2021

Preprint

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Merritt P. Losert

Atomic fluctuations lifting the energy degeneracy in Si/SiGe quantum dots

SiGe quantum wells with oscillating Ge concentrations for quantum dot qubits

How Valley-Orbit States in Silicon Quantum Dots Probe Quantum Well Interfaces

Effect of Quantum Hall Edge Strips on Valley Splitting in Silicon Quantum Wells

SiGe quantum wells with oscillating Ge concentrations for quantum dot qubits

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