Add to ORKGA microlens is affixed in the far field of an optical fiber to spatially transform a beam either entering or exiting the fiber. In a first embodiment, a droplet of photo polymer is placed on the end of an optical fiber and the fiber is spun to create an artificial gravity. The droplet is cured by UV radiation during the spinning. In a second embodiment, nanoparticles are mixed into the droplet to increase the refractive index of the photo polymer. A third embodiment employs artificial gravity to attach a microsphere to the end of the optical fiber. A fourth embodiment chemically treats the surface of the microsphere so that the requirement of artificial gravity is either reduced or eliminated. In a fifth embodiment the droplet is cured unde...
The fabrication process of refractive microlens arrays with a continuous surface relief is described...
A method is reported for fabricating truly three-dimensional micro-photonic structures directly onto...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...
A microlens is affixed in the far field of an optical fiber to spatially transform a beam either ent...
A microlens is affixed in the far field of an optical fiber to spatially transform a beam either ent...
Optical fibers are being used in a wide range of applications such as in communication, imaging, sen...
International audienceThermal reflow of polymer to generate spherical profile has been used to fabri...
International audienceWe present a novel route to directly integrate an array of microlenses at the ...
[[abstract]]This paper presents a ball type microlens made of photoresist SU-8, which allows light f...
[[abstract]]The microlens has found wide applications of emitters and detectors in fiber optical com...
Numerous techniques for the fabrication of microlenses in optical fiber tips exist. My numerical stu...
A novel method for fabricating microlenses on tapered single-mode fibers is shown to be able to cont...
Surface relief refractive microlens arrays are designed and fabricated using two methods. In the fir...
This paper studies the use of Microsphere Photolithography (MPL) as an alternative to Focused Ion Be...
The fabrication of refractive microlenses with self-developing photopolymers is reported. A spatial...
The fabrication process of refractive microlens arrays with a continuous surface relief is described...
A method is reported for fabricating truly three-dimensional micro-photonic structures directly onto...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...
A microlens is affixed in the far field of an optical fiber to spatially transform a beam either ent...
A microlens is affixed in the far field of an optical fiber to spatially transform a beam either ent...
Optical fibers are being used in a wide range of applications such as in communication, imaging, sen...
International audienceThermal reflow of polymer to generate spherical profile has been used to fabri...
International audienceWe present a novel route to directly integrate an array of microlenses at the ...
[[abstract]]This paper presents a ball type microlens made of photoresist SU-8, which allows light f...
[[abstract]]The microlens has found wide applications of emitters and detectors in fiber optical com...
Numerous techniques for the fabrication of microlenses in optical fiber tips exist. My numerical stu...
A novel method for fabricating microlenses on tapered single-mode fibers is shown to be able to cont...
Surface relief refractive microlens arrays are designed and fabricated using two methods. In the fir...
This paper studies the use of Microsphere Photolithography (MPL) as an alternative to Focused Ion Be...
The fabrication of refractive microlenses with self-developing photopolymers is reported. A spatial...
The fabrication process of refractive microlens arrays with a continuous surface relief is described...
A method is reported for fabricating truly three-dimensional micro-photonic structures directly onto...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...