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| Publications [#264674] of Jungsang Kim
Papers Published
- Pardo, F; Aksyuk, VA; Arney, S; Bair, H; Basavanhally, NR; Bishop, DJ; Bogart, GR; Bolle, CA; Bower, JE; Carr, D; Chan, HB; Cirelli, R; Ferry, E; Frahm, R; Gasparyan, A; Gates, JV; Giles, CR; Gomez, L; Goyal, S; Greywall, DS; Haueis, M; Keller, RC; Kim, J; Klemens, FP; Kolodner, P; Kornblit, A; Kroupenkine, T; Lai, W; Lifton, V; Liu, JQ; Low, Y; Mansfield, W; Marom, D; Miner, JF; Neilson, DT; Paczkowski, M; Pai, CS; Ramirez, A; Ramsey, D; Rogers, S; Ryf, R; Scotti, R; Shea, H; Simon, ME; Soh, HT; Tang, H; Taylor, JA; Teffeau, K; Vuillemin, J; Weld, J, Optical MEMS devices for telecom systems,
Proceedings of SPIE - The International Society for Optical Engineering, vol. 5116 II
(2003),
pp. 435-444, SPIE, Maspalomas, Gran Canaria, Spain, ISSN 0277-786X [12.499075], [doi]
(last updated on 2026/01/16)
Abstract:
As telecom networks increase in complexity there is a need for systems capable of managing numerous optical signals. Many of the channel-manipulation functions can be done more effectively in optical domain. MEMS devices are especially well suited for these applications since they can offer a large number of degrees of freedom in a limited space, thus providing high levels of optical integration. We have designed, fabricated and tested optical MEMS devices at the core of optical cross connects, channelized filters and wavelength-selective switches based on different fabrication technologies such as polysilicon surface micromachining and single crystal SOI. We show specific examples of these devices, discussing design trade-offs between technologies, fabrication requirements and optical performance.
Keywords:
micro-optics;micromachining;multiplexing equipment;optical communication equipment;optical fabrication;optical filters;optical switches;silicon;silicon-on-insulator;wavelength division multiplexing;
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