Feature detection and automation in Si MOS quantum dots toward automated qubit tuning
Abstract not provided.
Publications
Supplementary Material for ''Quantum dots with split enhancement gate tunnel barrier control''
Applied Physics Letters
Abstract not provided.
Image Analysis Automation and Machine Learning Techniques Applied to MOS Quantum Dot Tune-Up
Abstract not provided.
Single-Shot Readout of a S/T Qubit with a Cryogenic AC-Coupled Amplifier in a Lithographic MOS Double Quantum Dot
Abstract not provided.
Analyzing the fidelity of a singlet-triplet spin-orbit qubit in silicon using gate set tomography
Abstract not provided.
Spin-Orbit Qubits in the Sandia Silicon MOS Multi-QD Platform
Abstract not provided.
Implications of the spin-orbit interaction for singlet-triplet qubits in silicon
Abstract not provided.
Coupling MOS Quantum Dot and Phosphorous Donor Qubit Systems
Abstract not provided.
AC controlled spin-orbit qubits
Abstract not provided.
High-Fidelity Single-Shot Readout for a Spin Qubit via an Enhanced Latching Mechanism
Physical Review. X
Abstract not provided.
Two-channel wakeup system employing aluminum nitride based MEMS resonant accelerometers for near-zero power applications
Abstract not provided.
Generalized model for tuning tunnel rates in a silicon quantum dot
Abstract not provided.
Si quantum dots with focused ion beam implanted phosphorus donors
Abstract not provided.
Implications of the Spin-Orbit Effect for Singlet-Triplet Qubit Operation
Abstract not provided.
Current-Biased SET-HBT Cryogenic Preamplifier for High-Fidelity Single-Shot Spin Readout
Abstract not provided.
All-electrical universal control of a double quantum dot qubit in silicon MOS
Technical Digest - International Electron Devices Meeting, IEDM
Qubits based on transistor-like Si MOS nanodevices are promising for quantum computing. In this work, we demonstrate a double quantum dot spin qubit that is all-electrically controlled without the need for any external components, like micromagnets, that could complicate integration. Universal control of the qubit is achieved through spin-orbit-like and exchange interactions. Using single shot readout, we show both DC- and AC-control techniques. The fabrication technology used is completely compatible with CMOS.
Ion implantation for deterministic single atom devices
Review of Scientific Instruments
We demonstrate a capability of deterministic doping at the single atom level using a combination of direct write focused ion beam and solid-state ion detectors. The focused ion beam system can position a single ion to within 35 nm of a targeted location and the detection system is sensitive to single low energy heavy ions. This platform can be used to deterministically fabricate single atom devices in materials where the nanostructure and ion detectors can be integrated, including donor-based qubits in Si and color centers in diamond.
Magnetotransport Measurements of MOS Material for Quantum Dots
Abstract not provided.
A study of device designs for coherent donordot coupling in Si-MOS nanostructures
Abstract not provided.
Probing low noise at the MOS interface with a spin-orbit qubit
Abstract not provided.
Probing low noise at the MOS interface with a Spin-Orbit Singlet-Triplet Qubit
Abstract not provided.
Implications of the spin-orbit effect for singlet-triplet qubit operation
Abstract not provided.
Single Shot Pauli-Blockade in Lithographically Formed Few Electron MOS Double-Quantum-Dot Using a Single Layer Design
Abstract not provided.
Efficient layout for silicon quantum dot spin qubits
Abstract not provided.
Cobalt micro-magnet integration on silicon MOS quantum dots
Abstract not provided.
Results 1–25 of 112