【摘 要】
:
An active ultrafast formation and modulation of dual-band plasmon-induced transparency (PIT) effect is theoretically and experimentally studied in a novel metaphotonic device operating in the terahertz regime, for the first time, to the best of our knowle
【机 构】
:
CollegeofComputer,NationalUniversityofDefenseTechnology,Changsha410073,ChinaNationalInnovationInstit
【出 处】
:
ChineseOpticsLetters
论文部分内容阅读
An active ultrafast formation and modulation of dual-band plasmon-induced transparency (PIT) effect is theoretically and experimentally studied in a novel metaphotonic device operating in the terahertz regime, for the first time, to the best of our knowledge. Specifically, we designed and fabricated a triatomic metamaterial hybridized with silicon islands following a newly proposed modulating mechanism. In this mechanism, a localized surface plasmon resonance is induced by the broken symmetry of a structure, acting as the quasi-dark mode. Excited by exterior laser pumps, the photo-induced carriers in silicon promote the quasi-dark mode, which shields the near-field coupling between the dark mode and bright mode supported by the triatomic metamaterial, leading to the dynamical modulation of terahertz waves from individual-band into dual-band PIT effects, with a decay constant of 493 ps. Moreover, a remarkable slow light effect occurs in the modulating process, accompanied by the dual-transparent windows. The dynamical switching technique of the dual-band PIT effect introduced in this work highlights the potential usefulness of this metaphotonic device in optical information processing and communication, including multi-frequency filtering, tunable sensors, and optical storage.
其他文献
An improved model-based wavefront sensorless adaptive optics algorithm is proposed for laser beam cleanup. Deformable mirror (DM) eigenmodes are used to replace traditional Lukosz modes in order to avoid DM fitting errors. The traditional method is based
航天遥感相机的畸变作为相机的重要参数,其测试精度直接关系到相机获取图像后的图像处理精度。对于航天非测绘遥感相机,在设计之初往往对其光学系统的畸变设计要求没有测绘相机高,其光学系统的畸变一般会比较大,需要对此类遥感相机,特别是视场较大的遥感相机的畸变进行精确测试,为其在轨飞行检校提供比较精确的初始条件。文中在经典的精密测角方法的基础上,建立了针对大畸变航天遥感相机的数学模型,针对视场较大、弧形畸变较
偏振内调制激励(POLINEX)光潜在提高信噪比及使谱线具有洛仑茨型等方面有明显的优点,它也能克服因原子间速度变化的碰撞而引起的多普勒加宽的本底问题。本文用速率方程的方法对上述问题进行讨论,取得和实验一致的结论。
日本三菱电机公司在世界上率先研制成用于提髙激光束聚焦性能的激光谐振腔式“相位匹配谐振器ΡURΕ”。这种装置可让谐振腔具备使激光束取得相位匹配的功能,借此提高激光束的聚焦性能,可用于所有的激光器,尤其适用于髙功率激光器。
The impurities in two kinds of HfO2 materials and in their corresponding single layer thin films were determined through glow discharge mass spectrum technology and secondary ion mass spectrometry (SIMS) equipment respectively. It was found that ZrO2 was
建立了(AB)N型一维光子晶体结构多通道可调谐滤波器模型, 其中A层是砷化镓(GaAs)材料, B层是由掺铝的氧化锌层和氧化锌层(AZO/ZnO)交替排列构成的具有人工周期结构的各项异性材料。根据电磁波的传输矩阵理论, 推导了光子晶体的透射率公式。数值模拟表明: 此结构光子晶体透射中心波长是1.55 ?滋m, 对应于光子通带; 透射峰的数量由光子晶体的周期N决定; B层中填充因子h从2/3增加到11/12, 峰值波长蓝移且移动范围超过200 nm; A和B层厚度增加, 透射峰中心波长发生红移; 而入射角度
Field enhancement effect of metal probe in evanescent field, induced by using a multi-layers structure for exciting surface plasmon resonance (SPR), is analyzed numerically by utilizing two-dimensional (2D) TM-wave finite difference time-domain (FDTD) met
This Letter presents a double-layer structure combining a cracked cross meta-surface and grating surface to realize arbitrary incident linear terahertz (THz) wave polarization conversion. The arbitrary incident linear polarization THz wave will be induced
激光生物组织焊接与传统的缝合相比具有手术时间短、伤口愈合快、组织损伤少、无需拆线等优点。为了改善激光生物组织的焊接强度与质量,增加组织全厚度方向的激光吸收率,并探究染料对生物组织激光钎焊强度及热损伤的影响,以牛血清蛋白溶液为基体,壳聚糖为稳定剂,吲哚菁绿、亚甲基蓝为染色剂,利用波长为1064 nm的Nd∶YAG激光器对施加助焊剂的离体猪皮肤进行钎焊实验,并对焊接效果进行对比。结果表明:吲哚菁绿与亚甲基蓝是激光焊接过程中效果显著的有机生色团,能在促进光热转换效率、增大焊接强度的同时降低热损伤。