Faculté des sciences

Absorption and light scattering in InGaN-on-sapphire- and AlGaInP-based light-emitting diodes

Schad, Sven-Silvius ; Neubert, B. ; Eichler, Christoph ; Scherer, M. ; Habel, F. ; Seyboth, M. ; Scholz, F. ; Hofstetter, Daniel ; Unger, P. ; Schmid, W. ; Karnutsch, C. ; Streubel, K.

In: Journal of Lightwave Technology, 2004, vol. 22, no. 10, p. 2323-2332

Different experimental and simulation techniques aiming at a better understanding of lateral mode absorption in light-emitting diodes (LEDs) are presented in this paper. A measurement of transmitted power versus propagation distance allows us to derive the absorption losses of LED layer structures at their emission wavelength. Two models for the observed intensity distribution are presented: one... Plus

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    Summary
    Different experimental and simulation techniques aiming at a better understanding of lateral mode absorption in light-emitting diodes (LEDs) are presented in this paper. A measurement of transmitted power versus propagation distance allows us to derive the absorption losses of LED layer structures at their emission wavelength. Two models for the observed intensity distribution are presented: one is based on scattering, whereas the other relies on selective absorption. Both models were applied to InGaN-on-sapphire-based LED structures. Material absorption losses of 7 cm-1 for the scattering model and 4 cm-1 for the absorbing-layer model were obtained. Furthermore, these values are independent of the emission wavelength of the layer structure in the 403-433-nm range. The losses are most likely caused by a thin highly absorbing layer at the interface to the substrate. In a second step, interference of the modal field profile with the absorbing layer can be used to determine its thickness (d=75 nm) and its absorption coefficient (α ≈ 3900 cm-1). This method has also been tested and applied on AlGaInP-based layer structures emitting at 650 nm. In this case, the intensity decay of α = 30 cm-1 includes a contribution from the absorbing substrate.