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Interband Tunneling for Hole Injection in III-Nitride Ultra-violet Emitters

Ultra-violet emitters have several applications in the areas of sensing, water purification, and data storage. While the III-Nitride semiconductor system has the band gap region necessary for ultraviolet emission, achieving efficient ultraviolet solid state emitters remains a challenge due to the low p-type conductivity and high contact resistance in wide band gap AlGaN-based ultra-violet light emitters. In this work, we show that efficient interband tunneling can be used for non-equilibrium injection of holes into ultraviolet emitters. Polarization-engineered tunnel junctions were used to enhance tunneling probability by several orders of magnitude over a PN homojunction, leading to highly efficient tunnel injection of holes to ultraviolet light emitters. This demonstration of efficient interband tunneling introduces a new paradigm for design of ultra-violet light emitting diodes and diode lasers, and enables higher efficiency and lower cost ultra-violet emitters.

preprint2015arXivOpen access
Yuewei ZhangSriram KrishnamoorthyJared M. JohnsonFatih AkyolAndrew AllermanMichael W. MoseleyAndrew ArmstrongJinwoo HwangSiddharth Rajan
cond-mat.mtrl-sci
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Yuewei ZhangSriram KrishnamoorthyJared M. JohnsonFatih AkyolAndrew AllermanMichael W. MoseleyAndrew ArmstrongJinwoo HwangSiddharth Rajan

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