The no-cloning theorem has sparked considerable interest in achieving high-fidelity approximate quantum cloning.Most of the previous studies mainly focused on the cloning of single particle states,and cloning schemes ...The no-cloning theorem has sparked considerable interest in achieving high-fidelity approximate quantum cloning.Most of the previous studies mainly focused on the cloning of single particle states,and cloning schemes used there are incapable of cloning quantum entangled states in multipartite systems.Few schemes were proposed for cloning multiparticle states,which consume more entanglement resources with loss of qubits,and the fidelity of the cloned state is relatively low.In this paper,cloning schemes for bipartite and tripartite entangled states based on photonic quantum walk and entanglement swapping are proposed.The results show that according to the proposed schemes,two high-fidelity(up to 0.75)cloned states can be obtained with less quantum resource consumption.Because of the simple cloning steps,few quantum resources and high fidelity,these schemes are both efficient and feasible.Moreover,this cloning machine eliminates the need for tracing out cloning machine,thereby minimizing resource waste.展开更多
At the early stage,the transcriptome sequencing technique was used to detect the differentially expressed gene CsFK111 between vine cucumber and dwarf cucumber D0462.The gene was cloned,and bioinformatics software too...At the early stage,the transcriptome sequencing technique was used to detect the differentially expressed gene CsFK111 between vine cucumber and dwarf cucumber D0462.The gene was cloned,and bioinformatics software tools were used to analyze and predict the gene family and this gene.There were 30 members of the cucumber F-box gene family.The coding region of the cucumber CsFK111 gene was full-length 1314 bp,which encoded 437 amino acids and was predicted to be located in the nucleus.The protein encoded by this gene was a non-transmembrane protein,and the prediction of the secondary structure showed thatβ-lamellar structure and irregular crimp were dominant.A comparison of the phylogenetic tree showed that it was closest to cantaloupe and belonged to the same branch.The results provided a basis for future study on the regulation mechanism of the CsFK111 gene on cucumber dwarfing and also laid a foundation for further study of FBK family proteins.展开更多
文摘The no-cloning theorem has sparked considerable interest in achieving high-fidelity approximate quantum cloning.Most of the previous studies mainly focused on the cloning of single particle states,and cloning schemes used there are incapable of cloning quantum entangled states in multipartite systems.Few schemes were proposed for cloning multiparticle states,which consume more entanglement resources with loss of qubits,and the fidelity of the cloned state is relatively low.In this paper,cloning schemes for bipartite and tripartite entangled states based on photonic quantum walk and entanglement swapping are proposed.The results show that according to the proposed schemes,two high-fidelity(up to 0.75)cloned states can be obtained with less quantum resource consumption.Because of the simple cloning steps,few quantum resources and high fidelity,these schemes are both efficient and feasible.Moreover,this cloning machine eliminates the need for tracing out cloning machine,thereby minimizing resource waste.
基金Supported by the National Natural Science Foundation of China(32272724)the National Science Foundation of Heilongjiang Province,China(LH2019C033)。
文摘At the early stage,the transcriptome sequencing technique was used to detect the differentially expressed gene CsFK111 between vine cucumber and dwarf cucumber D0462.The gene was cloned,and bioinformatics software tools were used to analyze and predict the gene family and this gene.There were 30 members of the cucumber F-box gene family.The coding region of the cucumber CsFK111 gene was full-length 1314 bp,which encoded 437 amino acids and was predicted to be located in the nucleus.The protein encoded by this gene was a non-transmembrane protein,and the prediction of the secondary structure showed thatβ-lamellar structure and irregular crimp were dominant.A comparison of the phylogenetic tree showed that it was closest to cantaloupe and belonged to the same branch.The results provided a basis for future study on the regulation mechanism of the CsFK111 gene on cucumber dwarfing and also laid a foundation for further study of FBK family proteins.
