Towards a scalable quantum computing platform in the ultrastrong coupling regime /
General Material Designation
[Book]
First Statement of Responsibility
Thi Ha Kyaw.
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Cham, Switzerland :
Name of Publisher, Distributor, etc.
Springer,
Date of Publication, Distribution, etc.
[2019]
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
1 online resource
SERIES
Series Title
Springer theses
GENERAL NOTES
Text of Note
"Doctoral thesis accepted by the National University of Singapore, Singapore."
INTERNAL BIBLIOGRAPHIES/INDEXES NOTE
Text of Note
Includes bibliographical references.
CONTENTS NOTE
Text of Note
Introduction -- Basics of superconducting circuits architecture -- Ultrastrong light-matter interaction -- Quantum error correcting codes in the USC regime -- Quantum memory in the USC regime -- Catalytic quantum Rabi model -- Conclusion and Future Work -- Appendix.
0
SUMMARY OR ABSTRACT
Text of Note
The thesis devotes three introductory chapters to outline basic recipes to construct quantum Hamiltonian of an arbitrary superconducting circuit, starting from classical circuit design. Since superconducting circuit is one of the most promising platforms towards a practical quantum computer, anyone who is starting the field would be profoundly benefited from this thesis, and should be able to pick it up timely. The second focus of the introduction is the ultrastrong light-matter interaction (USC), summarizing latest developments in the community. It is then followed by the three main research work comprising- quantum memory in USC, scaling up the 1D circuit to 2D lattice configuration, creation of Noisy Intermediate-Scale Quantum era quantum error correction codes and polariton-mediated qubit-qubit interaction. We believe that the research work detailed in this thesis would eventually lead to development of quantum random access memory which is needed for various quantum machine learning algorithms and applications.
ACQUISITION INFORMATION NOTE
Source for Acquisition/Subscription Address
Springer Nature
Stock Number
com.springer.onix.9783030196585
OTHER EDITION IN ANOTHER MEDIUM
Title
Towards a Scalable Quantum Computing Platform in the Ultrastrong Coupling Regime.