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Near-field experiments and theoretical modeling on visible photonic bandgap structures

Near-field experiments and theoretical modeling on visible photonic bandgap structures
Near-field experiments and theoretical modeling on visible photonic bandgap structures
We have obtained preliminary theoretical and experimental results on a visible photonic band gap (PBG) structures which consists of 20 rows of 146 nm air pores arranged in a triangular lattice with pitch of 260 nm etched into the center of a planar waveguide. The waveguide has a thermally grown 1.8 μm thick silicon dioxide substrate buffer, followed by 250 nm thick silicon nitride waveguiding layer and a thin 75 nm silicon dioxide cladding layer (Fig. 1). Near field scanning optical microscopy (NSOM) is employed to probe the PBG structures. NSOM achieves its subdiffraction spatial resolution by scanning an aperture of ~ 100 nm at a distance of ~10 nm above the surface of interest; thus NSOM can provide details of local photon density of states and mode structure as light propagates through both the planar region and PBG stripe.
Optica Publishing Group
Yarrison-Rice, J.M.
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Swarup, P.
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Rice, P.R.
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Sharma, A.
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Jackson, H.E.
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Naghski, D.
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Boyd, J.T.
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Charlton, M.D.B.
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Parker, G.J.
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Bucksbaum, P.
Falcone, R.
Agrawal, G.
Yamamoto, Y.
Yarrison-Rice, J.M.
6cc0eb65-7ae0-4c51-9cc4-4a550ecd7249
Swarup, P.
d602d881-ba70-4f96-9f75-18fe9f438e71
Rice, P.R.
4d1e9d14-fbd2-4d75-a496-aad6abae92ca
Sharma, A.
fac07aec-ed4b-473a-9b73-eb88802f633b
Jackson, H.E.
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Naghski, D.
60c3c4da-fd5b-4ea1-8b26-b32aba158c83
Boyd, J.T.
b4dd90d2-151a-4b2b-8f3f-38d3dc5d4ee6
Charlton, M.D.B.
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Parker, G.J.
b140c5a5-94c4-44f3-95a3-c5054a9fe38d
Bucksbaum, P.
Falcone, R.
Agrawal, G.
Yamamoto, Y.

Yarrison-Rice, J.M., Swarup, P., Rice, P.R., Sharma, A., Jackson, H.E., Naghski, D., Boyd, J.T., Charlton, M.D.B. and Parker, G.J. (1999) Near-field experiments and theoretical modeling on visible photonic bandgap structures. Bucksbaum, P., Falcone, R., Agrawal, G. and Yamamoto, Y. (eds.) In Proceedings of the Quantum Electronics and Laser Science Conference. Optica Publishing Group..

Record type: Conference or Workshop Item (Paper)

Abstract

We have obtained preliminary theoretical and experimental results on a visible photonic band gap (PBG) structures which consists of 20 rows of 146 nm air pores arranged in a triangular lattice with pitch of 260 nm etched into the center of a planar waveguide. The waveguide has a thermally grown 1.8 μm thick silicon dioxide substrate buffer, followed by 250 nm thick silicon nitride waveguiding layer and a thin 75 nm silicon dioxide cladding layer (Fig. 1). Near field scanning optical microscopy (NSOM) is employed to probe the PBG structures. NSOM achieves its subdiffraction spatial resolution by scanning an aperture of ~ 100 nm at a distance of ~10 nm above the surface of interest; thus NSOM can provide details of local photon density of states and mode structure as light propagates through both the planar region and PBG stripe.

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More information

Published date: May 1999
Additional Information: Poster Session (QThG)
Venue - Dates: Quantum Electronics and Laser Science Conference 1999, , Baltimore, United States, 1999-05-23 - 1999-05-26
Related URLs:
Organisations: Nanoelectronics and Nanotechnology
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Identifiers

Local EPrints ID: 252733
URI: http://eprints.soton.ac.uk/id/eprint/252733
PURE UUID: bc504b9b-2f4d-4517-8bf5-b49d05b5e2a0

Catalogue record

Date deposited: 17 Mar 2000
Last modified: 10 Apr 2024 17:03

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Contributors

Author: J.M. Yarrison-Rice
Author: P. Swarup
Author: P.R. Rice
Author: A. Sharma
Author: H.E. Jackson
Author: D. Naghski
Author: J.T. Boyd
Author: M.D.B. Charlton
Author: G.J. Parker
Editor: P. Bucksbaum
Editor: R. Falcone
Editor: G. Agrawal
Editor: Y. Yamamoto

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