☆ 4.7 Review

Dephasing of Exchange-Coupled Spins in Quantum Dots for Quantum Computing

ADVANCED QUANTUM TECHNOLOGIES (2021)

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Summary: Strong spin-orbit coupling systems allow for electrically controlled spin qubits, with electron-spin qubits having long coherence times suitable for quantum technologies. Ultra-long coherence times of 10 ms have been demonstrated for strain-engineered hole states bound to boron acceptors in bulk silicon 28, promising to greatly improve spin qubit scalability and functionality. These results open up new possibilities for developing artificial quantum systems and enhancing the functionality and scalability of spin-based quantum technologies.

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Summary: Efficient information transfer between quantum systems is crucial for communication and computation, and the use of interactions and disorder can improve the quality of quantum operations. The study demonstrates enhanced quality factor in a swap operation of spin eigenstates by exploiting interactions and disorder, suggesting potential applications for non-equilibrium quantum phenomena in quantum information processing.

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Fast Spin-Orbit Qubit in an Indium Antimonide Nanowire

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PHYSICAL REVIEW LETTERS (2013)

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Charge Noise Spectroscopy Using Coherent Exchange Oscillations in a Singlet-Triplet Qubit

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PHYSICAL REVIEW LETTERS (2013)

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Spin-valley lifetimes in a silicon quantum dot with tunable valley splitting

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Coherent singlet-triplet oscillations in a silicon-based double quantum dot

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Circuit quantum electrodynamics with a spin qubit

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Electron spin coherence exceeding seconds in high-purity silicon

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Anderson-Mott transition in arrays of a few dopant atoms in a silicon transistor

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A single-atom transistor

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Strong coupling of a spin qubit to a superconducting stripline cavity

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Quantum decoherence of the central spin in a sparse system of dipolar coupled spins

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Nonperturbative Master Equation Solution of Central Spin Dephasing Dynamics

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PHYSICAL REVIEW LETTERS (2012)

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Detection of a Large Valley-Orbit Splitting in Silicon with Two-Donor Spectroscopy

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PHYSICAL REVIEW LETTERS (2012)

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Fast Hybrid Silicon Double-Quantum-Dot Qubit

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Scaling of Dynamical Decoupling for Spin Qubits

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Demonstration of Entanglement of Electrostatically Coupled Singlet-Triplet Qubits

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Ohm's Law Survives to the Atomic Scale

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Composite pulses for robust universal control of singlet-triplet qubits

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Entanglement in a solid-state spin ensemble

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Embracing the quantum limit in silicon computing

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Efficient controlled-phase gate for single-spin qubits in quantum dots

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Drain current modulation in a nanoscale field-effect-transistor channel by single dopant implantation

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APPLIED PHYSICS LETTERS (2010)

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Spin-orbit qubit in a semiconductor nanowire

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Observation of spin-dependent quantum jumps via quantum dot resonance fluorescence

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Single-shot readout of an electron spin in silicon

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Spectroscopy of few-electron single-crystal silicon quantum dots

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Coherent spin manipulation in an exchange-only qubit

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PHYSICAL REVIEW B (2010)

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Measurement of the Spin Relaxation Time of Single Electrons in a Silicon Metal-Oxide-Semiconductor-Based Quantum Dot

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PHYSICAL REVIEW LETTERS (2010)

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Pure quantum dephasing of a solid-state electron spin qubit in a large nuclear spin bath coupled by long-range hyperfine-mediated interactions

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Electron Spin Dephasing due to Hyperfine Interactions with a Nuclear Spin Bath

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Why the long-term charge offset drift in Si single-electron tunneling transistors is much smaller (better) than in metal-based ones: Two-level fluctuator stability

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Solid-state quantum memory using the 31P nuclear spin

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Gate-induced quantum-confinement transition of a single dopant atom in a silicon FinFET

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Electrically driven single-electron spin resonance in a slanting Zeeman field

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Theory of electric dipole spin resonance in quantum dots: Mean field theory with Gaussian fluctuations and beyond

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Spin decoherence of a heavy hole coupled to nuclear spins in a quantum dot

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Electrical control of spin relaxation in a quantum dot

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Coherent control of a single electron spin with electric fields

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Spins in few-electron quantum dots

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High precision quantum control of single donor spins in silicon

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PHYSICAL REVIEW LETTERS (2007)

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Relaxation, dephasing, and quantum control of electron spins in double quantum dots

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Efficient multiqubit entanglement via a spin bus

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Micromagnets for coherent control of spin-charge qubit in lateral quantum dots

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Spin-orbit mediated control of spin qubits

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Dephasing of quantum bits by a quasi-static mesoscopic environment

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Transport spectroscopy of a single dopant in a gated silicon nanowire

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PHYSICAL REVIEW LETTERS (2006)

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Electric-dipole-induced spin resonance in quantum dots

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Driven coherent oscillations of a single electron spin in a quantum dot

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Effect of exchange interaction on spin dephasing in a double quantum dot

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Charge-fluctuation-induced dephasing of exchange-coupled spin qubits

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Quantum control of donor electrons at the Si-SiO2 interface

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PHYSICAL REVIEW LETTERS (2006)

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Coherent single electron spin control in a slanting Zeeman field

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Fault-tolerant architecture for quantum computation using electrically controlled semiconductor spins

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Coherent manipulation of coupled electron spins in semiconductor quantum dots

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Background charge fluctuation in a GaAs quantum dot device

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Quantum noise in the Josephson charge qubit

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Phonon-induced decay of the electron spin in quantum dots

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Toward atomic-scale device fabrication in silicon using scanning probe microscopy

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Hydrogenic spin quantum computing in silicon: A digital approach

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Electron spin relaxation times of phosphorus donors in silicon

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Electron exchange coupling for single-donor solid-state spin qubits

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Spin-flip transitions between Zeeman sublevels in semiconductor quantum dots

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Universal quantum computation with the exchange interaction

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Hilbert-space structure of a solid-state quantum computer: Two-electron states of a double-quantum-dot artificial molecule

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