氮化led的多尺度、多物理场NEGF量子输运

2016 International Conference on Numerical Simulation of Optoelectronic Devices (NUSOD) Pub Date : 2016-07-11 DOI:10.1109/NUSOD.2016.7547053

J. Geng, Prasad Sarangapani, Erik Nelson, Carl Wordclman, B. Browne, T. Kubis, Gerhard Klimeck

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引用次数: 5

摘要

多量子阱led的工作是由载流子流过复杂的扩展量子态、这些量子态之间的光复合以及器件中的光场决定的。非平衡格林函数形式(NEGF)是量子输运的最先进的方法，然而，当它以教科书的形式应用时，它在数值上的要求太高，无法处理实际扩展的设备。这项工作引入了一种基于多尺度NEGF方法的LED建模新方法，该方法细分了关键器件域，并将量子输运与重组处理分开。与实验数据的第一次比较似乎是有希望的。

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Multi-scale, multi-physics NEGF quantum transport for nitride LEDs

The operation of multi-quantum well LEDs is determined by the carrier flow through complex, extended quantum states, the optical recombination between these states and the optical fields in the device. Non-equilibrium Green Function Formalism (NEGF) is the state-of-the-art approach for quantum transport, however when it is applied in its textbook form it is numerically too demanding to handle realistically extended devices. This work introduces a new approach to LED modeling based on a multi-scaled NEGF approach that subdivides the critical device domains and separates the quantum transport from the recombination treatments. First comparisons against experimental data appear to be promising.

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2016 International Conference on Numerical Simulation of Optoelectronic Devices (NUSOD)

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