Study on Some Basic Theoretical Problems in Solid State Quantum Computing and Quantum Simulation View Homepage


Ontology type: schema:MonetaryGrant     


Grant Info

YEARS

2012-2014

FUNDING AMOUNT

650000 CNY

ABSTRACT

Quantum information processing is the use of quantum mechanics principles and properties (such as quantum state superposition and entanglement) to deal with information, it can use the quantum algorithm powerful function to solve the existing computer can not effectively deal with some NP problems, that is, no polynomial time algorithm (Such as large factor factor decomposition, random database search, etc.). Solid-state quantum computing is based on solid-state quantum bit systems. Compared with other non-solid systems, solid-state quantum bit system can in principle use the micro-nano processing technology to make it large-scale integration. At the same time, solid quantum bits as adjustable artificial atoms, but also can be constructed solid quantum line to quantum simulation of condensed matter physics in some important issues. This project will explore some basic theoretical problems in quantum computing and quantum modeling based on solid-state quantum bits, including the evolution of quantum states in solid-state quantum devices and the problem of decoherence, the effective coupling of different types of solid-state quantum devices, and the solid- Quantum Simulation of Quantum Optical Effects and Multi - body Problems. The research of these contents has important academic value both in terms of basic theory and in promoting the cross-development of quantum physics and information science in the solid field. More... »

URL

http://npd.nsfc.gov.cn/projectDetail.action?pid=91121015

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