We propose two schemes for quantum secure direct communication (QSDC) and deterministic securequantum communication (DSQC) over collective dephasing noisy channel.In our schemes,four special two-qubit statesare used a...We propose two schemes for quantum secure direct communication (QSDC) and deterministic securequantum communication (DSQC) over collective dephasing noisy channel.In our schemes,four special two-qubit statesare used as the quantum channel.Since these states are unchanged through the collective dephasing noisy channel,the effect of the channel noise can be perfectly overcome.Simultaneously,the security against some usual attacks canbe ensured by utilizing the various checking procedures.Furthermore,these two schemes are feasible with present-daytechnique.展开更多
We present a novel protocol for deterministic secure quantum communication by using the four-qubit clusterstate as quantum channel.It is shown that two legitimate users can directly transmit the secret messages based ...We present a novel protocol for deterministic secure quantum communication by using the four-qubit clusterstate as quantum channel.It is shown that two legitimate users can directly transmit the secret messages based on Bell-basis measurements and classical communication.The present protocol makes use of the ideas of block transmission anddecoy particle checking technique.It has a high capacity as each cluster state can carry two bits of information,and hasa high intrinsic efficiency because almost all the instances except the decoy checking particles (its number is negligible)are useful.Furthermore,this protocol is feasible with present-day technique.展开更多
We propose a scheme for sharing an arbitrary unknown two-qubit state among three parties by using afour-qubit cluster-class state and a Bell state as a quantum channel With a quantum controlled phase gate (QCPG)operat...We propose a scheme for sharing an arbitrary unknown two-qubit state among three parties by using afour-qubit cluster-class state and a Bell state as a quantum channel With a quantum controlled phase gate (QCPG)operation and a local unitary operation,any one of the two agents has the access to reconstruct the original state ifhe/she collaborates with the other one,whilst individual agent obtains no information.As all quantum resource canbe used to carry the useful information,the intrinsic efficiency of qubits approaches the maximal value.Moreover,thepresent scheme is more feasible with present-day technique.展开更多
文摘We propose two schemes for quantum secure direct communication (QSDC) and deterministic securequantum communication (DSQC) over collective dephasing noisy channel.In our schemes,four special two-qubit statesare used as the quantum channel.Since these states are unchanged through the collective dephasing noisy channel,the effect of the channel noise can be perfectly overcome.Simultaneously,the security against some usual attacks canbe ensured by utilizing the various checking procedures.Furthermore,these two schemes are feasible with present-daytechnique.
基金The project partly supported by the Program of New Century Excellent Talents at the Universities of China under Grant No.NCET06-0554National Natural Science Foundation of China under Grant No.60677001+3 种基金the Science-Technology Fund of Anhui Province for Outstanding Youth under Grant No.06042087the Key Fund of the Ministry of Education of China under Grant No.206063the General Fund of the Educational Committee of Anhui Province under Grant No.2006KJ260Bthe Postgraduate Innovation Research Plan from Anhui University under Grant No.20073039
基金supported by the Postgraduate Innovation Research Plan from Anhui University under Grant No.20073039
文摘We present a novel protocol for deterministic secure quantum communication by using the four-qubit clusterstate as quantum channel.It is shown that two legitimate users can directly transmit the secret messages based on Bell-basis measurements and classical communication.The present protocol makes use of the ideas of block transmission anddecoy particle checking technique.It has a high capacity as each cluster state can carry two bits of information,and hasa high intrinsic efficiency because almost all the instances except the decoy checking particles (its number is negligible)are useful.Furthermore,this protocol is feasible with present-day technique.
基金supported by the Natural Science Research Programme of the Education Department of Anhui Province under Grant No. KJ2009B039Zthe Municipal Level Research Project from Lu'an City directive entrusted to West Anhui University under Grant No. 2008lw004
基金Supported by the Natural Science Research Programme of the Education Department of Anhui Province under Grant Nos.KJ2009B039Z and KJ2009B018Zthe Municipal Level Research Project from Lu'an City directive entrusted to West AnHui University under Grant No.2008LW004
文摘We propose a scheme for sharing an arbitrary unknown two-qubit state among three parties by using afour-qubit cluster-class state and a Bell state as a quantum channel With a quantum controlled phase gate (QCPG)operation and a local unitary operation,any one of the two agents has the access to reconstruct the original state ifhe/she collaborates with the other one,whilst individual agent obtains no information.As all quantum resource canbe used to carry the useful information,the intrinsic efficiency of qubits approaches the maximal value.Moreover,thepresent scheme is more feasible with present-day technique.
