Electron spin-flip correlations due to nuclear dynamics in driven GaAs double dots

Pal, Arijeet; Nichol, John; Shulman, Michael; Harvey, Shannon; Umansky, V.; Rashba, Emmanuel I.; Yacoby, Amir; Halperin, Bertrand I.

doi:10.1103/physrevb.95.035306

Cited by 6 publications

(2 citation statements)

References 46 publications

(102 reference statements)

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“…800 ppm 29 Si). In nuclear-rich materials such as GaAs, spin-orbit and quadrupolar effects are also incidentally larger and so may be observed using Landau-Zener transitions [47,48] and dynamical decoupling [32,33,49].…”

Section: Discussionmentioning

confidence: 99%

Magnetic Gradient Fluctuations from Quadrupolar $^{73}$Ge in Si/SiGe Exchange-Only Qubits

Kerckhoff,

Sun,

Fong

et al. 2020

Preprint

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We study the time-fluctuating magnetic gradient noise mechanisms in pairs of Si/SiGe quantum dots using exchange echo noise spectroscopy. We find through a combination of spectral inversion and correspondence to theoretical modeling that quadrupolar precession of the 73 Ge nuclei play a key role in the spin-echo decay time T2, with a characteristic dependence on magnetic field and the width of the Si quantum well. The 73 Ge noise peaks appear at the fundamental and first harmonic of the 73 Ge Larmor resonance, superimposed over 1/f noise due to 29 Si dipole-dipole dynamics, and are dependent on material epitaxy and applied magnetic field. These results may inform the needs of dynamical decoupling when using Si/SiGe quantum dots as qubits in quantum information processing devices.

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Section: Discussionmentioning

confidence: 99%

Magnetic Gradient Fluctuations from Quadrupolar $^{73}$Ge in Si/SiGe Exchange-Only Qubits

Kerckhoff,

Sun,

Fong

et al. 2020

Preprint

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“…Moreover, the effects of spin-orbit interaction can be minimized by, e.g. reorienting the magnetic fields [47][48][49], or by applying carefully tailored gates [50][51][52].…”

Section: Model and Methodsmentioning

confidence: 99%

Leakage and sweet spots in triple-quantum-dot spin qubits: A molecular-orbital study

2018

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A triple-quantum-dot system can be operated as either an exchange-only qubit or a resonantexchange qubit. While it is generally believed that the decisive advantage of the resonant-exchange qubit is the suppression of charge noise because it is operated at a sweet spot, we show that the leakage is also an important factor. Through molecular-orbital-theoretic calculations, we show that when the system is operated in the exchange-only scheme, the leakage to states with double electron occupancy in quantum dots is severe when rotations around the axis 120 • fromẑ is performed. While this leakage can be reduced by either shrinking the dots or separating them further, the exchange interactions are also suppressed at the same time, making the gate operations unfavorably slow. When the system is operated as a resonant-exchange qubit, the leakage is 3-5 orders of magnitude smaller. We have also calculated the optimal detuning point which minimizes the leakage for the resonant-exchange qubit, and have found that although it does not coincide with the double-sweetspot for the charge noise, they are rather close. Our results suggest that the resonant-exchange qubit has another advantage that leakage can be greatly suppressed compared to the exchange-only qubit, and operating at the double-sweet-spot point should be optimal both for reducing charge noise and suppressing leakage. arXiv:1711.06418v2 [cond-mat.mes-hall]

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Spin-constrained optoelectronic functionality in two-dimensional ferromagnetic semiconductor heterojunctions

et al. 2021

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Electron spin-flip correlations due to nuclear dynamics in driven GaAs double dots

Cited by 6 publications

References 46 publications

Magnetic Gradient Fluctuations from Quadrupolar $^{73}$Ge in Si/SiGe Exchange-Only Qubits

Magnetic Gradient Fluctuations from Quadrupolar $^{73}$Ge in Si/SiGe Exchange-Only Qubits

Leakage and sweet spots in triple-quantum-dot spin qubits: A molecular-orbital study

Spin-constrained optoelectronic functionality in two-dimensional ferromagnetic semiconductor heterojunctions

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