Engineering Dynamical Sweet Spots to Protect Qubits from Noise
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
Engineering Dynamical Sweet Spots to Protect Qubits from 1/f Noise
Z Huang, PS Mundada, A Gyenis… - Physical Review …, 2024 - oar.princeton.edu
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
Engineering Dynamical Sweet Spots to Protect Qubits from 1/ Noise
Z Huang, PS Mundada, A Gyenis, DI Schuster… - Phys. Rev. Applied, 2021 - osti.gov
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
Engineering Dynamical Sweet Spots to Protect Qubits from 1/f Noise
Z Huang, PS Mundada, A Gyenis… - Physical Review …, 2021 - ui.adsabs.harvard.edu
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
Engineering Dynamical Sweet Spots to Protect Qubits from 1/ Noise
Z Huang, PS Mundada, A Gyenis, DI Schuster… - arXiv preprint arXiv …, 2020 - arxiv.org
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
[PDF][PDF] Engineering Dynamical Sweet Spots to Protect Qubits from 1/f Noise
Z Huang, PS Mundada, A Gyenis, DI Schuster… - lss.fnal.gov
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
[PDF][PDF] Engineering Dynamical Sweet Spots to Protect Qubits from 1/f Noise
Z Huang, PS Mundada, A Gyenis, DI Schuster… - schusterlab.stanford.edu
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. We here introduce a protocol for engineering …
superconducting quantum computation. We here introduce a protocol for engineering …
Engineering Dynamical Sweet Spots to Protect Qubits from 1/f Noise
Z Huang, P Mundada, A Gyenis, D Schuster… - Bulletin of the American …, 2021 - APS
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …
[PDF][PDF] Engineering Dynamical Sweet Spots to Protect Qubits from 1/f Noise
Z Huang, PS Mundada, A Gyenis… - … APPLIED Phys Rev …, 2021 - researchgate.net
Low-frequency noise has been a limiting factor for dephasing times of many solid-state-
based qubits [1–36]. Superconducting qubits especially suffer from 1/f charge and flux noise …
based qubits [1–36]. Superconducting qubits especially suffer from 1/f charge and flux noise …
Engineering Dynamical Sweet Spots to Protect Qubits from 1/ Noise
Z Huang, PS Mundada, A Gyenis, DI Schuster… - Phys. Rev …, 2021 - inspirehep.net
Protecting superconducting qubits from low-frequency noise is essential for advancing
superconducting quantum computation. Based on the application of a periodic drive field …
superconducting quantum computation. Based on the application of a periodic drive field …