Pairwise and Bipartite Entanglements of Three Non-Equally Separated Quantum Dots in Plasmonic Nanowaveguide System

Plasmonics - We theoretically investigate properties of the pairwise and bipartite entanglements of three non-equally separated quantum dots (QDs) coupled to one-dimensional plasmonic nanowaveguide...     

Feasible Surface Plasmon Routing Based on the Self-Assembled InGaAs/GaAs Semiconductor Quantum Dot Located Between Two Silver Metallic Waveguides

Plasmonics - We proposed an experimentally feasible scheme of nano-plasmonic switch and quantum router via the single self-assembled InGaAs/GaAs semiconductor quantum dot (SQD) with a V-type...     

棉花幼苗叶片光合特性对低温胁迫及恢复处理的响应

为研究低温逆境及恢复处理下棉花幼苗光合特性响应机制, 丰富棉花苗期在不同胁迫水平下的抗寒机制及为应对自然条件下突发的低温冷害提供理论依据, 以‘新陆早33号’ (冷敏感)及‘中棉所50号’ (高耐寒)两个品种为试材, 采用人工模拟低温方法, 研究不同温度和处理时间下棉花幼苗光合气体交换参数、光能转化及传递的表现和恢复能力, 并通过测定胁迫解除后叶片的光合光响应曲线来分析叶片对光环境的适应能力。结果表明, 在较低强度低温逆境(15 ℃或24 h胁迫)中, 叶片净光合速率(P_n)、气孔导度(G_s)、气孔限制值、胞间CO₂浓度、最大光化学效率、光适应下最大光化学效率、实际光化学效率、相对电子传递速率变化幅度较小, 且胁迫解除后可恢复正常, 此时叶片光系统II (PSII)光反应中心受损可逆, P_n下降主要因气孔闭合引起。随着胁迫强度增加, 各测试指标变化显著, 且恢复表现较差, 此时叶片PSII光反应中心光能吸收、转化和电子传递受到严重阻碍, P_n下降原因由气孔限制因素转变为非气孔限制因素。低温胁迫导致叶片对光辐射的利用能力下降, 随着胁迫温度降低, 叶片最大净光合速率、表观量子效率及光饱和点快速下降, 光补偿点及暗呼吸速率则呈上升趋势。低温胁迫可导致棉花幼苗叶片对光环境适应能力降低, PSII反应中心对激发能捕获、活跃化学能转化及光合电子传递速率快速下降, CO₂固定能力降低, 最终导致光合能力下降。强耐寒品种则能在低温逆境中保持较高的光能转化、电子传递和弱光利用效率, 亦可通过减少暗呼吸消耗和调整G_s降低幅度和速度来保持较高的光合速率, 提高恢复能力, 增强植株抗逆性。     

Entanglement of Two Quantum Dots with Azimuthal Angle Difference in Plasmonic Waveguide System

We investigate the properties of entanglement between two quantum dots (QDs) with an azimuthal angle difference in two different plasmonic waveguide systems where a cavity coupled to the QDs is included or not. The real space formalism and the concurrence are used in solving the eigenvalue equation and calculating the entanglement, respectively. We analyze the influence of azimuthal angle difference on the entanglement and propose several effective ways to achieve high entanglement by adjusting the detuning, the QD-cavity coupling strength, and so on. Moreover, comparing the entanglement in the two models, we demonstrate that the addition of cavity can improve the entanglement of two QDs.