Waveguide QED for modular quantum computing using electron spin quantum processors
Títol de la revista
ISSN de la revista
Títol del volum
Autors
Correu electrònic de l'autor
Tutor / director
Tribunal avaluador
Realitzat a/amb
Tipus de document
Data
Condicions d'accés
Llicència
Publicacions relacionades
Datasets relacionats
Projecte CCD
Abstract
This Master's Thesis investigates waveguide quantum electrodynamics (wQED) for modular quantum computing using electron spin quantum processors. Two prototype setups, resonant and non-resonant waveguides, are examined using Qutip to evaluate their performance. The resonant prototype features a high qubit-waveguide coupling factor, while the non-resonant prototype focuses on balancing coupling and minimizing losses. Both prototypes aim to improve quantum state transfer fidelity and latency. The study provides foundational insights into the use of wQED for modular quantum computing, contributing to the advancement of quantum technology.
Descripció
In this project, the electron spin qubit characteristics and the contemporary 3D waveguide technology is considered to identify the optimal characteristics and structure of waveguides ensuring a strong coupling to the qubit and a high-fidelity quantum state transfer to the end node. The results of the project will form the basis of designing an efficient and scalable 3D waveguide connecting processors of electron spin qubits, and will enable benchmarking of the proposed design with state-of-the-art quantum interlink technologies.