Light amplification and lasing in a (meta-phenylene vinylene) copolymer
Loading...
Date
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Access
Embargo end date
Citation
Manaa, H, Henari, FZ, Al-Saie, A, Drury, A, Kobayashi, T, Blau, WJ, Light amplification and lasing in a (meta-phenylene vinylene) copolymer, Journal of Applied Physics, 93, 4, 2003, 1971
Abstract
We report on single pass optical gain and lasing measurements on a blue-emitting copolymer,
poly
~
m
-phenylene vinylene-co-2,5-dioctyloxy-
p
-phenylene vinylene
!
under 0.5 ns pulsed
photoexcitation. This soluble copolymer is designed and synthesized for light amplification and
lasing applications. Blue photoluminescence is achieved by introduction of the
meta
linkage of the
phenylene rings in the polymer backbone, which reduces the extent of delocalization of
p
electrons.
The large Stokes shift of about 70 nm implies a low reabsorption rate, and leads to easier creation
of population inversion and hence to efficient light amplification. A solution of the polymer exhibits
amplified spontaneous emission evidenced by spectral narrowing and a superlinear increase of
output intensity when it is photoexcited at 337 nm. By means of the variable excitation stripe length
method, net gains of 18 and 24 cm
2
1
are deduced for different pump energies of 71 and 113
m
J,
respectively. Moreover, laser emission from the polymer solution is obtained in a simple cavity
formed by Fresnel reflections at the cuvette?solution interfaces. A conversion efficiency as high as
27% and a wide tuning range between 470 and 492 nm in solutions are demonstrated.
Description
PUBLISHED
Collections
Endorsement
Review
Supplemented By
Referenced By
Keywords
Author's Homepage: http://people.tcd.ie/wblau
Type of material: Journal Article

