IEEE Nuclear Science Symposuim &Amp; Medical Imaging Conference 2010
DOI: 10.1109/nssmic.2010.5873834
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Development of low mass optical readout for high data bandwidth systems

Abstract: At Argonne National Laboratory the High Energy Physics and Center for Nanoscale Materials Divisions are working on a project to develop a new generation of detector readout using high speed data transfer optical devices that can be implemented in particle physics or for long distances. Freespace communications devices offer the potential for reductions in mass, power, and cost of data paths for on-board trigger and readout of tracking detectors. The project involves three areas of study: light modulation, the … Show more

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Cited by 4 publications
(2 citation statements)
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“…We have also done development of several kinds of modulator-based free space optical links. Much of this work is described elsewhere [12,13]. Here, we discuss a kind of short distance link which might help with on-board triggering in silicon tracking detectors and which could be optimally implemented with modulators.…”
Section: Jinst 8 C02023mentioning
confidence: 99%
See 1 more Smart Citation
“…We have also done development of several kinds of modulator-based free space optical links. Much of this work is described elsewhere [12,13]. Here, we discuss a kind of short distance link which might help with on-board triggering in silicon tracking detectors and which could be optimally implemented with modulators.…”
Section: Jinst 8 C02023mentioning
confidence: 99%
“…The steering could follow target motion of a few mm at 100 Hz within about 10 microns. We also built a similar system with an auxiliary steering laser at 850 nm and reflective path which could operate for displacements of roughly 1 cm [12,13]. These links operated with a LiNbO 3 modulator at 1 Gbps, 1550 nm, with no errors for hours while the target was in motion.…”
Section: Free Space Data Links Using Modulatorsmentioning
confidence: 99%