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15 April 2003 Optical design choices for VCSEL-based free-space optical interconnects
Andrew G. Kirk, Marc Chateauneuf
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Proceedings Volume 4942, VCSELs and Optical Interconnects; (2003) https://doi.org/10.1117/12.471908
Event: Photonics Fabrication Europe, 2002, Bruges, Belgium
Abstract
We introduce a model for a clustered free-space optical interconnect and use this to determine the maximum array density which can be achieved, together with the optimal cluster lens size which maximizes this density. We assume that the sources are multimode vertical cavity surface emitting lasers and that refractive microlenses are used to collimate the VCSEL beams. We also assume that the relay lenses are diffractive lenses with a quadratic phase profile. We find that for short interconnect distances, the maximum channel density is limited by the speed of the relay lenses, but that as the interconnect distance increases, geometric aberrations become the limiting factor. We also determine the interconnect distance below which a micro-channel relay is more suitable and the distance above which a single lens solution is adequate.
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Andrew G. Kirk and Marc Chateauneuf "Optical design choices for VCSEL-based free-space optical interconnects", Proc. SPIE 4942, VCSELs and Optical Interconnects, (15 April 2003); https://doi.org/10.1117/12.471908
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KEYWORDS
Relays
Vertical cavity surface emitting lasers
Microlens
Lenses
Optical interconnects
Optical design
Tolerancing
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