A valley-aware co-simulation and noise-aware optimization of discrete cryogenic circuit settings achieves 99.99% average shuttling fidelity over 10 μm at 20 m/s with tens of μW power.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3representative citing papers
Identifies a zero-temperature spin relaxation channel via gyromagnetic coupling to Rayleigh vorticity that is super-Ohmic and depth-dependent, distinct from Raman processes.
Fabrication-oriented design study for a phonon-mediated two-qubit module in strained Ge hole-spin qubits with specified readout at 1-4 K.
citing papers explorer
-
Valley-Aware Optimal Control of Spin Shuttling Using Cryogenic Integrated Electronics
A valley-aware co-simulation and noise-aware optimization of discrete cryogenic circuit settings achieves 99.99% average shuttling fidelity over 10 μm at 20 m/s with tens of μW power.
-
Gyromagnetic Quantum Friction in Rayleigh Vorticity Baths
Identifies a zero-temperature spin relaxation channel via gyromagnetic coupling to Rayleigh vorticity that is super-Ohmic and depth-dependent, distinct from Raman processes.
-
Two-Qubit Module Based on Phonon-Coupled Ge Hole-Spin Qubits: Design, Fabrication, and Readout at 1-4 K
Fabrication-oriented design study for a phonon-mediated two-qubit module in strained Ge hole-spin qubits with specified readout at 1-4 K.