Benjamin S. Soloway
YOU?
Author Swipe
View article: Minute-long quantum coherence enabled by electrical depletion of magnetic noise
Minute-long quantum coherence enabled by electrical depletion of magnetic noise Open
Integrating solid-state spin defects into classical electronic devices can enable new opportunities for quantum information processing that benefit from existing semiconductor technology. We show, through bias control of an isotopically pu…
View article: A fluorescent-protein spin qubit
A fluorescent-protein spin qubit Open
Optically-addressable spin qubits form the foundation of a new generation of emerging nanoscale sensors. The engineering of these sensors has mainly focused on solid-state systems such as the nitrogen-vacancy (NV) center in diamond. Howeve…
View article: Quantum Spin Probe of Single Charge Dynamics
Quantum Spin Probe of Single Charge Dynamics Open
Electronic defects in semiconductors form the basis for emerging quantum technologies, but many defect centers are difficult to access at the single-particle level. A method for probing optically inactive spin defects would reveal semicond…
View article: Quantum spin probe of single charge dynamics
Quantum spin probe of single charge dynamics Open
Electronic defects in semiconductors form the basis for many emerging quantum technologies. Understanding defect spin and charge dynamics in solid state platforms is crucial to developing these building blocks, but many defect centers are …
View article: Magnon-mediated qubit coupling determined via dissipation measurements
Magnon-mediated qubit coupling determined via dissipation measurements Open
Accompanying data for the main text and supporting information of Magnon-mediated qubit coupling determined via dissipation measurementsPaper abstract is as follows:Controlled interaction between localized and deloc…
View article: Detecting Spin-Bath Polarization with Quantum Quench Phase Shifts of Single Spins in Diamond
Detecting Spin-Bath Polarization with Quantum Quench Phase Shifts of Single Spins in Diamond Open
Single-qubit sensing protocols can be used to measure qubit-bath coupling parameters. However, for sufficiently large coupling, the sensing protocol itself perturbs the bath, which is predicted to result in a characteristic response in the…
View article: Magnon-mediated qubit coupling determined via dissipation measurements
Magnon-mediated qubit coupling determined via dissipation measurements Open
Controlled interaction between localized and delocalized solid-state spin systems offers a compelling platform for on-chip quantum information processing with quantum spintronics. Hybrid quantum systems (HQSs) of localized nitrogen-vacancy…
View article: Detecting spin bath polarization with quantum quench phase shifts of single spins in diamond
Detecting spin bath polarization with quantum quench phase shifts of single spins in diamond Open
Single-qubit sensing protocols can be used to measure qubit-bath coupling parameters. However, for sufficiently large coupling, the sensing protocol itself perturbs the bath, which is predicted to result in a characteristic response in the…