41 resources related to Optical polymers
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2013 IEEE 15th Electronics Packaging Technology Conference (EPTC 2013)
EPTC aims to provide a good coverage of technological developments in all areas of electronic packaging from design to manufacturing and operation. It is a major forum for the exchange of knowledge and provides opportunities to network and meet leading experts in the field.
2008 1st Workshop on Specialty Optical Fibers and their Applications (WSOF 2008)
Forum in which the specialty optical fiber community can meet and discuss new research, development, directions and trends
Takagi, Y.; Suzuki, A.; Horio, T.; Ohno, T.; Kojima, T.; Takada, T.; Iio, S.; Obayashi, K.; Okuyama, M. Lightwave Technology, Journal of, 2010
We have developed novel optoelectronic packages and optical transmission system using an optical connector with an external optical waveguide to achieve low-loss chip-to-chip optical interconnections for computer systems. In order to connect the package and the connector, we have also proposed a socket as a coupling structure to realize an all passive alignment and high coupling efficiency. We have demonstrated ...
Bamiedakis, N.; Hashim, A.; Penty, R.V.; White, I.H. Lightwave Technology, Journal of, 2014
Optical technologies have received large interest in recent years for use in board-level interconnects. Polymer multimode waveguides in particular, constitute a promising technology for high-capacity optical backplanes as they can be cost-effectively integrated onto conventional printed circuit boards (PCBs). This paper presents the first optical backplane demonstrator based on the use of PCB-integrated polymer multimode waveguides and a regenerative shared ...
Uhlig, S.; Robertsson, M. Lightwave Technology, Journal of, 2006
In this paper, recent literature on the discussion on high-speed backplanes with optical, electrical, and mixed solutions, as well as on polymer-waveguide systems suitable for implementation on printed circuit boards (PCBs), is reviewed from the point of view of their optical losses. The reevaluation of the optical power budget for realistic high-speed optical polymer-waveguide links on backplanes showed that signal ...
Yoon, Keun Byoung; In-Kui Cho; Seung Ho Ahn; Myung Yong Jeong; Deug Ju Lee; Young Un Heo; Byung Sup Rho; Hyo-Hoon Park; Byoung-Ho Rhee Lightwave Technology, Journal of, 2004
As discussed in this paper, a practical optical backplane system was demonstrated, using a waveguide-embedded optical backplane board, processing boards, and optical slots for board-to-board interconnection. A metal optical bench was used as a packaging die for the optical devices and the integrated circuit chips in both the transmitter and the receiver processing boards. The polymer waveguide was produced by ...
Antao Chen; Haishan Sun; Pyayt, A.; Dalton, Larry R.; Jingdong Luo; Jen, A.K.-Y. Selected Topics in Quantum Electronics, IEEE Journal of, 2008
Poled and unpoled chromophore-containing polymers offer some unique advantages in device functionality and fabrication. UV light and electron beam (e-beam) can bleach out the color of chromophores and reduce the index of refraction of the polymer. The photobleaching and e-beam bleaching methods form optical waveguides in a single step and do not involve solvents or wet chemicals, and can be ...
No jobs are currently tagged "Optical polymers"
2013 IEEE Alexander Graham Bell Medal
Light Our Future - IEEE Photonics Society
GHTC 2012 Jim Fruchterman Keynote
2013 IEEE Edison Medal
Lighting the Way: Optical Sensors in the Life Sciences
Nanotechnology For Electrical Engineers
ISSCC 2012 - Eli Harari Plenary
IEEE International Conference on Communications
Life Sciences: Surface Enhanced Raman Spectroscopy, and more
No standards are currently tagged "Optical polymers"
IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...
All aspects of optical guided-wave science, technology, and engineering in the areas of fiber and cable technologies; active and passive guided-wave componentry (light sources, detectors, repeaters, switches, fiber sensors, etc.); integrated optics and optoelectronics; systems and subsystems; new applications; and unique field trials.
Rapid publication of original research relevant to photonics technology. This expanding field emphasizes laser and electro-optic technology, laser physics and systems, applications, and photonic/ lightwave components and applications. The journal offers short, archival publication with minimal delay.
40% devoted to special issues published in J. Quantum Electronics. Other topics: solid-state lasers, fiber lasers, optical diagnostics for semi-conductor manufacturing, and ultraviolet lasers and applications.