Song-Ya Ma
Henan University
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Publication
Featured researches published by Song-Ya Ma.
Quantum Information Processing | 2012
Xiu-Bo Chen; Song-Ya Ma; Yuan Su; Ru Zhang; Yixian Yang
In this paper, several new protocols for the controlled remote state preparation (CRSP) by using the Brown state as the quantum channel are proposed. Firstly, we propose a CRSP protocol of an arbitrary two qubit state. Then, the CRSP protocol of an arbitrary three qubit state, which has rarely been considered by the previous papers, is investigated. The coefficients of the prepared states can be not only real, but also complex. To design these protocols, some useful and general measurement bases are constructed, which can greatly reduce the restrictions for the coefficients of the prepared states. The security analysis is provided in detail. Moreover, receiver’s all recovery operations are summarized into a concise formula.
Quantum Information Processing | 2014
Zhi-hua Zhang; Lan Shu; Zhi-Wen Mo; Jun Zheng; Song-Ya Ma; Ming-Xing Luo
In this work, novel schemes for joint remote state preparation are presented, which involve N senders and 2 receivers as well as N senders and 3 receivers. The receivers can simultaneously reconstruct different qubit states containing the joint information from all senders. Compared with the protocols proposed by Su et al. (Int J Quantum Inf 10:1250006 (2012), the information of the prepared states in our schemes is distributed in a different way. Our protocols can be applied not only to states with real parameters but also ones with complex parameters. Moreover, the N-to-2 protocol is suitable for general qubit states besides equatorial states, and the receivers need not to perform any measurements and CNOT gates to reconstruct the states.
Quantum Information Processing | 2015
Ming-Xing Luo; Song-Ya Ma; Yun Deng; Xiaojun Wang
The ability to prepare arbitrary quantum state is the holy grail of quantum information technology. Previous schemes focus on circuit complexity using implicit decomposition schemes for global evolutions and are difficult in quantum experiments because the generation circuit can be completed for given coefficients each time. One protocol is firstly proposed in this paper in order to deterministically generate arbitrary four-qubit states with any coefficients. In order to complete this scheme with present physical techniques, we present an explicit quantum circuit with unknown coefficients of prepared states using elementary quantum gates. The key of our scheme is constructing the Cartan KAK decomposition of special transformations in
Scientific Reports | 2015
Ming-Xing Luo; Song-Ya Ma; Xiu-Bo Chen; Xiaojun Wang
Scientific Reports | 2015
Ming-Xing Luo; Yun Deng; Hui-Ran Li; Song-Ya Ma
SO(4)
Quantum Information Processing | 2017
Song-Ya Ma; Cong Gao; Pei Zhang; Zhi-Guo Qu
International Journal of Quantum Information | 2013
Song-Ya Ma; Ping Tang; Ming-Xing Luo
SO(4) and
Scientific Reports | 2015
Ming-Xing Luo; Song-Ya Ma; Xiu-Bo Chen; Xiaojun Wang
Quantum Information Processing | 2013
Ming-Xing Luo; Yun Deng; Song-Ya Ma; Xiu-Bo Chen; Zhi-Guo Qu
SO(8)
Physical Review A | 2015
Ming-Xing Luo; Song-Ya Ma; Xiu-Bo Chen; Xiaojun Wang
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