L
Larry R. Dalton
Researcher at University of Washington
Publications - 704
Citations - 28460
Larry R. Dalton is an academic researcher from University of Washington. The author has contributed to research in topics: Chromophore & Photonics. The author has an hindex of 84, co-authored 694 publications receiving 26354 citations. Previous affiliations of Larry R. Dalton include Kyung Hee University & Air Force Research Laboratory.
Papers
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Polymer-based optical waveguides: Materials, processing, and devices
TL;DR: A survey of suitable optical polymer systems, their processing techniques, and the integrated optical waveguide components and circuits derived from these materials is summarized in this paper, where the characteristics of several important classes of optical polymers, such as their refractive index, optical loss, processibility/mechanical properties, and environmental performance are discussed.
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Low (Sub-1-Volt) Halfwave Voltage Polymeric Electro-optic Modulators Achieved by Controlling Chromophore Shape
Yongqiang Shi,Cheng Zhang,Hua Zhang,James H. Bechtel,Larry R. Dalton,Larry R. Dalton,Bruce H. Robinson,William H. Steier +7 more
TL;DR: This study, together with recent demonstrations of exceptional bandwidths and ease of integration, demonstrates the potential of polymeric materials for next generation telecommunications, information processing, and radio frequency distribution.
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Electric field poled organic electro-optic materials: state of the art and future prospects.
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Polymer micro-ring filters and modulators
TL;DR: In this article, micro-ring wavelength filters and resonant modulators using polymer materials at 1300 nm and 1550 nm are analyzed, designed, and demonstrated, and they are integrated with vertically coupled input and output waveguides.
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Demonstration of 110 GHz electro-optic polymer modulators
Datong Chen,Harold R. Fetterman,Antao Chen,William H. Steier,Larry R. Dalton,Wenshen Wang,Yongqiang Shi +6 more
TL;DR: In this paper, an external-cavity tunable semiconductor laser was used to detect the modulation signal at 1.3 µm using a laser heterodyne system.