Add to ORKGFabrication of micro optics for fiber optics applications is a challenge due to their size and the issues associated with alignment of the optics to single-mode fibers. This study summarizes a method for fabricating diffractive optical elements on the ends of coreless fiber segments for passive alignment to single-mode fibers. Results are presented for passively aligned diffractive lens elements used for both collimation and beam shaping. (C) 2003 Optical Society of America
With the continued development of multi-order diffractive engineered (MODE) lenses that consist of b...
Laser forming is a method to deform a material by controlled local laser heating. In combination wit...
As imaging and photonics technology is advancing to smaller and complex devices there is increasing ...
Fabrication of micro optics for fiber optics applications is a challenge due to their size and the i...
Fabrication of micro optics for fiber optics applications is a challenge due to their size and the i...
Optical fibers are being used in a wide range of applications such as in communication, imaging, sen...
special issue « Fiber Optic Research in France » (Part II of III)International audienceIn this paper...
The purpose of this work is to demonstrate efficient optical coupling between a single, mode fiber (...
Abstract: Integration of micro-optical elements (MOEs) with optical fiber at top-end was realized by...
Diffractive optical elements (DOEs) have been being used widely in the areas such as, optical imagin...
Microstructure optical fibers with flat-top fundamental mode are first proposed by introducing a low...
A method is reported for fabricating truly three-dimensional micro-photonic structures directly onto...
The design, fabrication, and testing of diffractive microlens arrays for use in fiber optic intercon...
A microlens is affixed in the far field of an optical fiber to spatially transform a beam either ent...
A novel technique for the realization of guiding structures for passive/automatic alignment is propo...
With the continued development of multi-order diffractive engineered (MODE) lenses that consist of b...
Laser forming is a method to deform a material by controlled local laser heating. In combination wit...
As imaging and photonics technology is advancing to smaller and complex devices there is increasing ...
Fabrication of micro optics for fiber optics applications is a challenge due to their size and the i...
Fabrication of micro optics for fiber optics applications is a challenge due to their size and the i...
Optical fibers are being used in a wide range of applications such as in communication, imaging, sen...
special issue « Fiber Optic Research in France » (Part II of III)International audienceIn this paper...
The purpose of this work is to demonstrate efficient optical coupling between a single, mode fiber (...
Abstract: Integration of micro-optical elements (MOEs) with optical fiber at top-end was realized by...
Diffractive optical elements (DOEs) have been being used widely in the areas such as, optical imagin...
Microstructure optical fibers with flat-top fundamental mode are first proposed by introducing a low...
A method is reported for fabricating truly three-dimensional micro-photonic structures directly onto...
The design, fabrication, and testing of diffractive microlens arrays for use in fiber optic intercon...
A microlens is affixed in the far field of an optical fiber to spatially transform a beam either ent...
A novel technique for the realization of guiding structures for passive/automatic alignment is propo...
With the continued development of multi-order diffractive engineered (MODE) lenses that consist of b...
Laser forming is a method to deform a material by controlled local laser heating. In combination wit...
As imaging and photonics technology is advancing to smaller and complex devices there is increasing ...