Advances in light transverse momenta and optical lateral forces
<? pag\vskip-16pt?> Harnessing linear and angular momenta of light is one of the
cornerstones in modern optics and has found tremendous applications in optical circuits …
cornerstones in modern optics and has found tremendous applications in optical circuits …
Optical manipulation with metamaterial structures
Optical tweezers employing forces produced by light underpin important manipulation tools
employed in numerous areas of applied and biological physics. Conventional optical …
employed in numerous areas of applied and biological physics. Conventional optical …
Optomechanical wagon‐wheel effects for bidirectional sorting of dielectric nanoparticles
The visual perception of a moving target is not always true. Wheels turning rapidly, for
instance, may look like rotating inversely. This phenomenon is known as the wagon‐wheel …
instance, may look like rotating inversely. This phenomenon is known as the wagon‐wheel …
[PDF][PDF] 横向光力最新研究进展(特邀)
施宇智, 赖成兴, 夷伟成, 黄海洋, 冯超, 何涛… - Acta Optica …, 2024 - researching.cn
摘要光镊技术利用光和物质之间动量交换产生的光力对细小颗粒进行操控, 具有无接触,
操控尺寸小, 精度高等特点, 在基础物理, 量子计算, 生物医学等领域得到了广泛的应用. 其中 …
操控尺寸小, 精度高等特点, 在基础物理, 量子计算, 生物医学等领域得到了广泛的应用. 其中 …
Understanding of transverse spin angular momentum in tightly focused linearly polarized vortex beams
X Zhang, B Shen, Z Zhu, G Rui, J He, Y Cui, B Gu - Optics Express, 2022 - opg.optica.org
Spin angular momentum (SAM) is widely used in spin-dependent unidirectional optical
interfaces, optical manipulation, integrated optical signal processing, laser structuring and …
interfaces, optical manipulation, integrated optical signal processing, laser structuring and …
Graphene nanoribbon plasmonic conveyor belt network for optical trapping and transportation of nanoparticles
Optical tweezers based on metallic plasmonic structures can achieve stable trapping of
objects with deep subwavelength dimensions. However, due to the lack of real-time …
objects with deep subwavelength dimensions. However, due to the lack of real-time …
[HTML][HTML] Tailored nano-electronics and photonics with two-dimensional materials at terahertz frequencies
L Viti, MS Vitiello - Journal of Applied Physics, 2021 - pubs.aip.org
The discovery of graphene and its fascinating capabilities has triggered an unprecedented
interest in inorganic two-dimensional (2D) materials. van der Waals layered materials such …
interest in inorganic two-dimensional (2D) materials. van der Waals layered materials such …
Dynamically Reconfigurable Bipolar Optical Gradient Force Induced by Mid‐Infrared Graphene Plasmonic Tweezers for Sorting Dispersive Nanoscale Objects
Existing techniques for optical trapping and manipulation of microscopic objects, such as
optical tweezers and plasmonic tweezers, are mostly based on visible and near‐infrared …
optical tweezers and plasmonic tweezers, are mostly based on visible and near‐infrared …
Reconfigurable label-free shape-sieving of submicron particles in paired chalcogenide waveguides
Up-to-date particle sieving schemes face formidable challenges for sieving label-free
submicron molecules with similar sizes and dielectric constants but diverse shapes. Herein …
submicron molecules with similar sizes and dielectric constants but diverse shapes. Herein …
Terahertz plasmonic nanotrapping with graphene coaxial apertures
Noninvasive and noncontact approaches of trapping nanoscale biospecimens have gained
extensive interest due to their biological and nanotechnological applications. Here, we have …
extensive interest due to their biological and nanotechnological applications. Here, we have …