Microring resonators on side-polished optical fiber

Sherwood, Travis; Young, Allan C.; Takayesu, Jocelyn; Jen, Alex K.‐Y.; Dalton, Larry R.; Chen, Antao

doi:10.1109/lpt.2005.854405

Cited by 28 publications

(21 citation statements)

References 11 publications

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“…[135] Sherwood et al applied MAP to fiber optics: They polished the side of a fiber to remove the cladding and then fabricated a polymeric microring resonator directly on the surface of the core. [136] The guided light inside the core couples to the microring with sharp resonances seen as dips in the transmission spectrum. The reported microring was 5 mm thick, had inner and outer diameters of 40 and 50 mm, respectively, and was robust enough to be transferred from a separate substrate to the polished fiber.…”

Section: Opticsmentioning

confidence: 99%

Multiphoton Fabrication

et al. 2007

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Chemical and physical processes driven by multiphoton absorption make possible the fabrication of complex, 3D structures with feature sizes as small as 100 nm. Since its inception less than a decade ago, the field of multiphoton fabrication has progressed rapidly, and multiphoton techniques are now being used to create functional microdevices. In this Review we discuss the techniques and materials used for multiphoton fabrication, the applications that have been demonstrated, as well as those being pursued. We also consider the outlook for this field, both in the laboratory and in industrial settings.

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Section: Opticsmentioning

confidence: 99%

Multiphoton Fabrication

et al. 2007

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“…Waveguides have also been fabricated on printed circuit boards by using multiphoton polymerization follwed by conventional photopolymerization; in this case, the refractive index difference between the regions cured in the two different manners is sufficient to guide light effectively [54,55]. Sherwood et al have also used multiphoton polymerization to fabricate microring resonators on the side of optical fibers [56].…”

Section: Applicationsmentioning

confidence: 99%

Recent progress in multiphoton microfabrication

Maruo

Fourkas

2008

Laser & Photonics Reviews

355

245

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Multiphoton microfabrication enables the production of three-dimensional microstructures with sub-100 nm resolution via direct laser writing using a femtosecond, pulsed laser beam. The range of materials available for multiphoton processing has increased steadily over the past decade, and the extent of potential applications has increased correspondingly. Current application areas include photonics, microelectromechanical systems, and microelectronics. We review the fundamentals of multiphoton microfabrication and recent progress on materials and applications. Approaches for the mass production of threedimensional structures created with multiphoton fabrication are also discussed.An optical micrograph of a metallized inductor created with multiphoton polymerization.

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“…[135] Sherwood et al entwickelten eine MAP-Anwendung für die Faseroptik: Sie entfernten die Umhüllung einer Faser, polierten diese auf einer Seite und brachten dann direkt auf der Faseroberfläche einen polymeren Mikroring-Resonator an. [136] Das Licht im Faserleiter koppelt mit scharfen Resonanzen, die als Minima im Transmissionsspektrum sichtbar sind, in den Mikroring ein.…”

Section: Optikunclassified

Mehrphotonen‐Mikrofabrikation

et al. 2007

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Chemische und physikalische Prozesse, die auf Mehrphotonenabsorption beruhen, ermöglichen die Herstellung komplexer dreidimensionaler Mikrostrukturen mit einer Auflösung von 100 nm. Seit der experimentellen Realisierung der Mehrphotonenabsorption vor nicht einmal zehn Jahren wurden in diesem Bereich rasch Fortschritte erzielt, und Mehrphotonentechniken werden heute für die Herstellung funktionsfähiger Mikrosysteme eingesetzt. In diesem Aufsatz diskutieren wir die Techniken und Materialien, die für die Mehrphotonen‐Mikrofabrikation verwendet werden, sowie bereits beschriebene und gegenwärtig angestrebte Anwendungen. Wir betrachten auch die Perspektiven dieses Felds für Forschung und Industrie.

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Microring resonators on side-polished optical fiber

Cited by 28 publications

References 11 publications

Multiphoton Fabrication

Multiphoton Fabrication

Recent progress in multiphoton microfabrication

Mehrphotonen‐Mikrofabrikation

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