Your search keyword '"Ming, Xing"' showing total 5 results

1. Schemes for remotely preparing an arbitrary four-qubit $$\chi $$ -state.

Author

Ma, Song-Ya, Luo, Ming-Xing, Chen, Xiu-Bo, and Yang, Yi-Xian

Subjects

*QUBITS, *QUANTUM states, *PROBABILITY theory, *QUANTUM communication, *SYSTEMS design, *NUMERICAL calculations

Abstract

Two schemes via different entangled resources as the quantum channel are proposed to realize remote preparation of an arbitrary four-particle $$\chi $$ -state with high success probabilities. To design these protocols, some useful and general measurement bases are constructed, which have no restrictions on the coefficients of the prepared states. It is shown that through a four-particle projective measurement and two-step three-particle projective measurement under the novel sets of mutually orthogonal basis vectors, the original state can be prepared with the probability 50 and 100 %, respectively. And for the first scheme, the special cases of the prepared state that the success probability reaches up to 100 % are discussed by the permutation group. Furthermore, the present schemes are extended to the non-maximally entangled quantum channel, and the classical communication costs are calculated. [ABSTRACT FROM AUTHOR]

Published

2014

2. Faithful Transfer Arbitrary Pure States with Mixed Resources.

Author

Luo, Ming-Xing, Li, Lin, Ma, Song-Ya, Chen, Xiu-Bo, and Yang, Yi-Xian

Subjects

*QUANTUM theory, *QUANTUM entanglement, *QUANTUM teleportation, *QUANTUM communication, *QUBITS, *PROBABILITY theory

Abstract

In this paper, we show that some special mixed quantum resource experience the same property of pure entanglement such as Bell state for quantum teleportation. It is shown that one mixed state and three bits of classical communication cost can be used to teleport one unknown qubit compared with two bits via pure resources. The schemes are easily implement with model physical techniques. Moreover, these resources are also optimal and typical for faithfully remotely prepare an arbitrary qubit, two-qubit and three-qubit states with mixed quantum resources. Our schemes are completed as same as those with pure quantum entanglement resources except only 1 bit additional classical communication cost required. The success probability is independent of the form of the mixed resources. [ABSTRACT FROM AUTHOR]

Published

2013

3. Joint Remote Preparation of an Arbitrary Five-Qubit Brown State.

Author

Luo, Ming-Xing, Peng, Jia-Yin, and Mo, Zhi-Wen

Subjects

*QUBITS, *QUANTUM measurement, *QUANTUM theory, *PERMUTATION groups, *GENERALIZATION, *PROBABILITY theory, *COEFFICIENTS (Statistics)

Abstract

Our purpose in this paper, is to show that several senders can jointly prepare a five-qubit Brown-state to a remote receiver. By constructing some useful measurement bases, we first present two schemes to prepare an arbitrary Brown-state with real coefficients or complex coefficients via the same quantum channel. Then, by using the permutation group the success probability is improved. Finally, the present schemes are generalized to multi-sender. [ABSTRACT FROM AUTHOR]

Published

2013

4. Quantum Tasks with Non-maximally Quantum Channels via Positive Operator-Valued Measurement.

Author

Peng, Jia-Yin, Luo, Ming-Xing, and Mo, Zhi-Wen

Subjects

*QUANTUM theory, *PARTICLES (Nuclear physics), *MICROCLUSTERS, *PROBABILITY theory, *POSITIVE operators, *UNITARY operators

Abstract

By using a proper positive operator-valued measure (POVM), we present two new schemes for probabilistic transmission with non-maximally four-particle cluster states. In the first scheme, we demonstrate that two non-maximally four-particle cluster states can be used to realize probabilistically sharing an unknown three-particle GHZ-type state within either distant agent's place. In the second protocol, we demonstrate that a non-maximally four-particle cluster state can be used to teleport an arbitrary unknown multi-particle state in a probabilistic manner with appropriate unitary operations and POVM. Moreover the total success probability of these two schemes are also worked out. [ABSTRACT FROM AUTHOR]

Published

2013

5. Joint Remote Preparation of an Arbitrary 4-Qubit χ-State.

Author

Luo, Ming-Xing and Deng, Yun

Subjects

*QUBITS, *COMPLEXITY (Philosophy), *PERMUTATION groups, *QUANTUM theory, *PROBABILITY theory, *GENERALIZATION, *ARBITRARY constants

Abstract

Our purpose in this paper, is to show that several senders can jointly prepare a four-qubit | χ〉-state to a remote receiver. By constructing some useful measurement bases, we first present two schemes to prepare an arbitrary | χ〉-state with real coefficients or complex coefficients via the same quantum channel. Then, by using the permutation group the success probability is improved. Finally, the present schemes are generalized to multi-sender. [ABSTRACT FROM AUTHOR]

Published

2012