Bloch surface waves(BSWs) are excited in one-dimensional photonic crystals(Ph Cs) terminated by a graphene monolayer under the Kretschmann configuration. The field distribution and reflectance spectra are numerica...Bloch surface waves(BSWs) are excited in one-dimensional photonic crystals(Ph Cs) terminated by a graphene monolayer under the Kretschmann configuration. The field distribution and reflectance spectra are numerically calculated by the transverse magnetic method under transfer-matrix polarization, while the sensitivity is analyzed and compared with those of the surface plasmon resonance sensing method. It is found that the intensity of magnetic field is considerably enhanced in the region of the terminated layer of the multilayer stacks, and that BSW resonance appears only in the interface of the graphene and solution. Influences of the graphene layers and the thickness of a unit cell in Ph Cs on the reflectance are studied as well. In particular, by analyzing the performance of BSW sensors with the graphene monolayer,the wavelength sensitivity of the proposed sensor is 1040 nm/RIU whereas the angular sensitivity is 25.1°/RIU. In addition,the maximum of figure of merit can reach as high as 3000 RIU^-1. Thus, by integrating graphene in a simple Kretschmann structure, one can obtain an enhancement of the light–graphene interaction, which is prospective for creating label-free,low-cost and high-sensitivity optical biosensors.展开更多
在容滞网络中,针对散发等待BSW(Binary Spray and Wait)路由协议在转发报文时具有一定的盲目性。提出将每个节点维护的路由信息由一维拓展到二维,并在该基础上研究节点的相遇规律,动态地调整报文转发策略,从而解决当前节点与信宿节点相...在容滞网络中,针对散发等待BSW(Binary Spray and Wait)路由协议在转发报文时具有一定的盲目性。提出将每个节点维护的路由信息由一维拓展到二维,并在该基础上研究节点的相遇规律,动态地调整报文转发策略,从而解决当前节点与信宿节点相遇概率较低的问题。实验结果表明,该算法与散发等待路由相比,在降低平均延迟的基础上,能有效改善报文的递交率。展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.61203211 and 41675154)the Six Major Talent Peak Expert of Jiangsu Province,China(Grant No.2015-XXRJ-014)the Natural Science Foundation of Jiangsu Province,China(Grant No.BK20141483)
文摘Bloch surface waves(BSWs) are excited in one-dimensional photonic crystals(Ph Cs) terminated by a graphene monolayer under the Kretschmann configuration. The field distribution and reflectance spectra are numerically calculated by the transverse magnetic method under transfer-matrix polarization, while the sensitivity is analyzed and compared with those of the surface plasmon resonance sensing method. It is found that the intensity of magnetic field is considerably enhanced in the region of the terminated layer of the multilayer stacks, and that BSW resonance appears only in the interface of the graphene and solution. Influences of the graphene layers and the thickness of a unit cell in Ph Cs on the reflectance are studied as well. In particular, by analyzing the performance of BSW sensors with the graphene monolayer,the wavelength sensitivity of the proposed sensor is 1040 nm/RIU whereas the angular sensitivity is 25.1°/RIU. In addition,the maximum of figure of merit can reach as high as 3000 RIU^-1. Thus, by integrating graphene in a simple Kretschmann structure, one can obtain an enhancement of the light–graphene interaction, which is prospective for creating label-free,low-cost and high-sensitivity optical biosensors.
文摘在容滞网络中,针对散发等待BSW(Binary Spray and Wait)路由协议在转发报文时具有一定的盲目性。提出将每个节点维护的路由信息由一维拓展到二维,并在该基础上研究节点的相遇规律,动态地调整报文转发策略,从而解决当前节点与信宿节点相遇概率较低的问题。实验结果表明,该算法与散发等待路由相比,在降低平均延迟的基础上,能有效改善报文的递交率。