Quantum Logic Gates and State Preparation of Optical Cavity Quantum Bits Based on Superconducting Transmission Line Cavities View Homepage


Ontology type: schema:MonetaryGrant     


Grant Info

YEARS

2011-2014

FUNDING AMOUNT

280000 CNY

ABSTRACT

Superconducting quantum circuits are considered to be one of the most likely physical systems that are the first to achieve scalable fault-tolerant quantum computing. At present, in the field of superconducting quantum computing, the theory and experimental research on the superconducting transmission lumen has been paid more and more attention. The existing research generally uses the transmission lug as a coupling device to deliver the quantum information stored by the superconducting qubit. This topic will be devoted to the development of superconducting transmission lane as a quantum information carrier, and the use of superconducting Josephson quantum circuit as a new quantum information process of coupling devices. We will carry forward the superiority of the coherence of the superconducting transmission lane to overcome the shortcomings of the superconducting qubites in the previous superconducting quantum computing, and use the strong coupling between the Josephson quantum circuit and the transmission line cavity to induce the transmission line Of the strong interaction to achieve a variety of quantum information operations. Our research work is to develop and improve the high-quality and high-quality inter-Kerr effect of transmission line cavity model based on electromagnetic induction transparency mechanism and to explore the inter-quadratic non-classical quantum logic gate based on this inter-Kerr effect Preparation of Coherent State with Transport Line Cavity Coherent State. More... »

URL

http://npd.nsfc.gov.cn/projectDetail.action?pid=11104096

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