Light emitting device

Abstract

The presented devices and methods are directed to efficient and effective photon emission. In one embodiment, high-performance tunnel junction deep ultraviolet (UV) light-emitting diodes (LEDs) are created using plasma-assisted molecular beam epitaxy. The device heterostructure was grown under slightly Ga-rich conditions to promote the formation of nanoscale clusters in the active region. The nanoscale clusters can act as charge containment configurations. In one exemplary implementation, a device operates at approximately 255 nm light emission with a maximum external quantum efficiency (EPE) of 7.2% and wall-plug efficiency (WPE) of 4%, which are nearly one to two orders of magnitude higher than previously reported tunnel junction devices operating at this wavelength. The devices exhibit highly stable emission originating from highly localized carriers in Ga-rich regions formed in the active region, with nearly constant emission peak with increasing current density up to 200 A/cm, due to the strong charge carrier confinement related to the presence of nanoclusters (e.g., Ga-rich) and radiative emission originating from highly localized carriers in Ga-rich regions formed in the active region.