Master Thesis Online
Fighting Decoherence with Dynamical Decoupling
Read, Colin 
Promotor(s) :
Martin, John
Date of defense : 29-Jun-2023/30-Jun-2023 • Permalink : http://hdl.handle.net/2268.2/17875
Mémoire_ColinRead_S185203.pdfDetails
| Title : | Fighting Decoherence with Dynamical Decoupling |
| Translated title : | [fr] Combattre la décoherence par découplement dynamique |
| Author : | Read, Colin
|
| Date of defense : | 29-Jun-2023/30-Jun-2023 |
| Advisor(s) : | Martin, John
|
| Committee's member(s) : | Bastin, Thierry
Lumay, Geoffroy
Verstraete, Matthieu
|
| Language : | English |
| Number of pages : | 122 |
| Keywords : | [en] Decohererence [en] dynamical decoupling [en] HOPS [en] quantum error mitigation |
| Discipline(s) : | Physical, chemical, mathematical & earth Sciences > Physics |
| Target public : | Researchers Student |
| Institution(s) : | Université de Liège, Liège, Belgique |
| Degree: | Master en sciences physiques, à finalité approfondie |
| Faculty: | Master thesis of the Faculté des Sciences |
Abstract
[en] Mitigating errors due to decoherence and imperfect quantum control is fundamental to enable the development of new quantum technologies. We explore in this master's thesis a technique called dynamical decoupling which aims at mitigating decoherence in qubit systems using a periodic control field. We provide a state of the art on dynamical decoupling and investigate the utilization of the Hierarchy of Pure States method for simulating the dynamics of a qubit undergoing a dynamical decoupling procedure and interacting with its environment.
Cite this master thesis
All documents available on MatheO are protected by copyright and subject to the usual rules for fair use.
The University of Liège does not guarantee the scientific quality of these students' works or the accuracy of all the information they contain.
The University of Liège does not guarantee the scientific quality of these students' works or the accuracy of all the information they contain.