Electronic and plasmonic materials inside microstructured optical fibers
Electronic and plasmonic materials inside microstructured optical fibers
We report the growth of metal and crystalline semiconductor structures within holey fibers via a high-pressure microfluidic chemical vapour deposition process, to create novel photonic, electronic and plasmonic functionality inside the fiber waveguide.
Sazio, P.J.A.
0d6200b5-9947-469a-8e97-9147da8a7158
Amezcua-Correa, A.
37d5ed27-0225-4375-b843-580f43c591ac
Finlayson, C.E.
bcc6c2a7-e346-4b08-93e7-be12c7033dac
Hayes, J.R.
a6d3acd6-d7d5-4614-970e-0e8c594e48e2
Scheidemantel, T.J.
bcb05e6c-1d75-44a5-92b0-f75d9d6b60e2
Baril, N.F.
f5d317cc-48d8-4be0-8f08-5385e700f8bb
Jackson, B.R.
858d8f99-cd32-42b0-963e-420ac30e0aec
Won, D.J.
9191730f-7ebd-42a8-ba63-1f554b3bc824
Zhang, F.
396ca776-f0e6-4750-974a-6ba3f9c78a41
Margine, E.R.
acbb0379-efce-41b8-a08a-64e62733330d
Gopalan, V.
7927bd73-45f5-4501-a160-d294652c3fe0
Crespi, V.H.
2d400abb-9487-47c7-9f00-6b54cc1b998c
Badding, J.V.
940f7adb-73df-4f8a-9c46-e47f5425fef0
2007
Sazio, P.J.A.
0d6200b5-9947-469a-8e97-9147da8a7158
Amezcua-Correa, A.
37d5ed27-0225-4375-b843-580f43c591ac
Finlayson, C.E.
bcc6c2a7-e346-4b08-93e7-be12c7033dac
Hayes, J.R.
a6d3acd6-d7d5-4614-970e-0e8c594e48e2
Scheidemantel, T.J.
bcb05e6c-1d75-44a5-92b0-f75d9d6b60e2
Baril, N.F.
f5d317cc-48d8-4be0-8f08-5385e700f8bb
Jackson, B.R.
858d8f99-cd32-42b0-963e-420ac30e0aec
Won, D.J.
9191730f-7ebd-42a8-ba63-1f554b3bc824
Zhang, F.
396ca776-f0e6-4750-974a-6ba3f9c78a41
Margine, E.R.
acbb0379-efce-41b8-a08a-64e62733330d
Gopalan, V.
7927bd73-45f5-4501-a160-d294652c3fe0
Crespi, V.H.
2d400abb-9487-47c7-9f00-6b54cc1b998c
Badding, J.V.
940f7adb-73df-4f8a-9c46-e47f5425fef0
Sazio, P.J.A., Amezcua-Correa, A., Finlayson, C.E., Hayes, J.R., Scheidemantel, T.J., Baril, N.F., Jackson, B.R., Won, D.J., Zhang, F., Margine, E.R., Gopalan, V., Crespi, V.H. and Badding, J.V.
(2007)
Electronic and plasmonic materials inside microstructured optical fibers.
Optical Society of America (OSA) Frontiers in Optics 2007 (FiO '07), San Jose, USA.
16 - 20 Sep 2007.
(doi:10.1364/FIO.2007.FThJ1).
Record type:
Conference or Workshop Item
(Paper)
Abstract
We report the growth of metal and crystalline semiconductor structures within holey fibers via a high-pressure microfluidic chemical vapour deposition process, to create novel photonic, electronic and plasmonic functionality inside the fiber waveguide.
Text
3795.pdf
- Author's Original
More information
Published date: 2007
Venue - Dates:
Optical Society of America (OSA) Frontiers in Optics 2007 (FiO '07), San Jose, USA, 2007-09-16 - 2007-09-20
Identifiers
Local EPrints ID: 50184
URI: http://eprints.soton.ac.uk/id/eprint/50184
PURE UUID: b4677d96-1b24-4164-8448-ae0116c21cee
Catalogue record
Date deposited: 01 Feb 2008
Last modified: 16 Mar 2024 03:26
Export record
Altmetrics
Contributors
Author:
A. Amezcua-Correa
Author:
C.E. Finlayson
Author:
J.R. Hayes
Author:
T.J. Scheidemantel
Author:
N.F. Baril
Author:
B.R. Jackson
Author:
D.J. Won
Author:
F. Zhang
Author:
E.R. Margine
Author:
V. Gopalan
Author:
V.H. Crespi
Author:
J.V. Badding
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
