Article abstract
Nature Materials 7, 490 - 497 (2008)
Published online: 4 May 2008 | doi:10.1038/nmat2186
Subject Categories: Polymers | Optical, photonic and optoelectronic materials
Optical gain by a simple photoisomerization process
Francisco Gallego-Gómez1,3, Francisco del Monte2 & Klaus Meerholz1
Abstract
Organic holographic materials are pursued as versatile and cheap data-storage materials. It is generally assumed that under steady-state conditions, only photorefractive holographic media exhibit a non-local response to a light-intensity pattern, which results in an asymmetric two-beam coupling or 'gain', where intensity is transferred from one beam to the other as a measure of writing efficiency. Here, we demonstrate non-local holographic recording in a non-photorefractive material. We demonstrate that reversible photoisomerization gratings recorded in a non-photorefractive azo-based material exhibit large optical gain coefficients beyond 1,000 cm- 1, even for polarization gratings. The grating characteristics differ markedly from classical photorefractive features, but can be modelled by considering the influence of the Poynting vector on the photoisomerization. The external control of the Poynting vector enables manipulation of the gain coefficient, including its sign (the direction of energy exchange), a novel phenomenon we refer to as 'gain steering'. A very high sensitivity of about 100 cm2 J- 1 was achieved. This high sensitivity, combined with a high spatial resolution, suggests a great technical advantage for applications in image processing and phase conjugation.
- Chemistry Department, University of Cologne, Luxemburgerstrasse 116, 50939 Cologne, Germany
- Instituto de Ciencia de Materiales de Madrid, Consejo Superior de Investigaciones Científicas, Campus de Cantoblanco, 28049 Madrid, Spain
- Current address: Department of Applied Physics, University of Alicante, 03690 Alicante, Spain
Correspondence to: Klaus Meerholz1 e-mail: Klaus.meerholz@uni-koeln.de
MORE ARTICLES LIKE THIS
These links to content published by NPG are automatically generated.
NEWS AND VIEWS
New stack system for recordsNature News and Views (10 Oct 1996)
Polymers scale new heightsNature News and Views (06 Oct 1994)
See all 10 matches for News And ViewsRESEARCH
A photorefractive organically modified silica glass with high optical gainNature Letters to Editor (02 Nov 2000)
Near-infrared sensitivity enhancement of photorefractive polymer composites by pre-illuminationNature Letters to Editor (29 Aug 2002)
See all 33 matches for Research
