GaN-based blue laser diodes (LDs) may exhibit anomalous temperature characteristics such as a very high or negative characteristic temperature (T0). In this work, the temperature characteristics of blue LDs having… Click to show full abstract
GaN-based blue laser diodes (LDs) may exhibit anomalous temperature characteristics such as a very high or negative characteristic temperature (T0). In this work, the temperature characteristics of blue LDs having InGaN double quantum-well (QW) active region are investigated using numerical simulation. It is found that the T0 is greatly influenced by the n-type doped barrier between the QWs and a negative T0 can be observed for the LD structure with a heavily doped barrier. The negative T0 of InGaN blue LDs is mainly attributed to the decrease of the Auger recombination rate at the p-side QW with increasing temperature as a result of the thermally enhanced hole transport from the p-side to the n-side QW.
               
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