Abstract
We report the results of numerical and experimental investigations of the dynamics of an external cavity diode laser (ECDL) device [1] composed of a semiconductor laser, a several millimetre long external volume holographic Bragg grating, and a glass lens closely located at the inner facet of the active section (see Fig. 1). The Bragg grating provides optical feedback and can stabilize the emission wavelength as required by many applications. For example, the compact, narrow linewidth ECDL is ideally suited for quantum optical experiments in space. However, frequently ECDLs have more than one stable stationary or non-stationary attractor, see Fig. 2 and Refs. [2,3]. In general, each of these stable attractors can be observed by an appropriate tuning of laser parameters in simulations or increase and a consequent decrease of the device heating or injected current in experiments. Fig. 3 shows how up and down sweep of the injected current allows finding of two coexisting stable continuous wave (cw) states with different wavelengths and emission intensities.
© 2015 IEEE
PDF ArticleMore Like This
Christoph Pyrlik, Wojciech Lewoczko-Adamczyk, Sven Schwertfeger, Johannes Häger, Andreas Wicht, Achim Peters, Götz Erbert, and Günther Tränkle
JTh2A.79 CLEO: Applications and Technology (CLEO:A&T) 2015
M. Hemingway, D. Vaitiekus, J.W. Cockburn, N. Hempler, G.T. Maker, G.P.A. Malcolm, and D.G. Revin
STu4G.6 CLEO: Science and Innovations (CLEO:S&I) 2015
X. Porte, J. Martínez-Llinàs, M.C. Soriano, P. Colet, and I. Fischer
CB_P_27 The European Conference on Lasers and Electro-Optics (CLEO/Europe) 2015