CUBIC INN INCLUSIONS - PROPOSED EXPLANATION FOR THE SMALL PRESSURE-SHIFT ANOMALY OF THE LUMINESCENCE IN INGAN-BASED QUANTUM-WELLS

We propose a new approach to explain the unusually low pressure coeffi cients of the luminescence peaks observed in single-quantum-well InGaN -based light emitting diodes manufactured by Nichia Chemical Industrie s. In view of the most recent first principles band structure calculat ions for InN under hydrostatic pressure, we find that it is possible t o reproduce the measured low (12-16 meV/GPa) pressure coefficients of the luminescence by assuming the formation of zincblende InN inclusion s in the InGaN quantum well layers. These cubic inclusions, surrounded by the usual wurtzite material, should act like quantum dots giving r ise to enhanced electron localization. The pressure shift of the lumin escence peaks in blue and green InGaN-based emitters predicted by this model is close to 14 meV/GPa, in good agreement with our experimental results. This explanation of the observed low pressure coefficients i n these devices is consistent with recent independent evidence for InN inclusions in InGaN epilayers. (C) 1998 Elsevier Science Ltd. All rig hts reserved.