G. Jiang
University of Pennsylvania
6 Papers
44 Citations
G. Jiang is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Optical fiber & Optical amplifier. The author has an hindex of 3, co-authored 6 publications.
Chat about Author
Papers
Rare-earth organic complexes for amplification in polymer optical fibers and waveguides
TL;DR: In this paper, the optical properties of rare-earth organic complexes have been studied because of their possible application to polymer optical fibers and waveguides, and numerical simulations reveal that gains as high as and exceeding 20 dB should be realizable in rare earth-doped polymer fiber amplifiers having lengths <60 cm.
134
Origin of high bandwidth performance of graded-index plastic optical fibers
TL;DR: In this article, strong mode coupling increases the GI POF bandwidth from its profile-determined value of 0.43 GHz to its measured value of 3.0 GHz for 100 m. The measured refractive index profile is not parabolic, but consists of two markedly different regions.
32
Room-temperature green upconversion fluorescence of an Er(3+)-doped laser liquid.
TL;DR: Room-temperature green upconversion fluorescence of an Er(3+)-doped POCl(3)-SnCl(4) solution is achieved when the solution is pumped with an 800-nm GaAs laser diode and two-step absorption process is determined.
8
•Proceedings Article
Rare-earth organic complexes for polymer optical fiber and waveguide amplifiers
C. Koeppen,S. Yamada,G. Jiang,A.F. Garito,L.R. Dalton +4 more
- 02 Jun 1996
TL;DR: In this paper, the potential of two types of rare-earth chelates, tetrakis(dibenzoylmethide) (D/sub 4/ ), were evaluated by studying their radiative properties using a Judd-Ofelt treatment.
3
Recent progress in organic nonlinear optics
Shinji Yamada,Weidong Chen,Chris Koeppen,G. Jiang,Rui-Fang Shi,Anthony F. Garito +5 more
- 05 Oct 1995
TL;DR: Nonlinear optical processes in ic-electron organic and polymer systems have attracted considerable study because their fundamental understanding has led to observations of new phenomena and new theoretical findings and to the development of new materials and devices of considerable promise as mentioned in this paper.
2