Abstract
We investigate the dynamics of donor bound excitons (D°XA) at T = 10 K around an isolated single edge dislocation in homoepitaxial GaN, using a picosecond time-resolved cathodoluminescence (TR-CL) setup with high temporal and spatial resolutions. An ∼ 1.3 meV dipole-like energy shift of D°XA is observed around the dislocation, induced by the local strain fields. By simultaneously recording the variations of both the exciton lifetime and the CL intensity across the dislocation, we directly assess the dynamics of excitons around the defect. Our observations are well reproduced by a diffusion model. It allows us to deduce an exciton diffusion length of ∼24 nm as well as an effective area of the dislocation with a radius of ∼95 nm, where the recombination can be regarded as entirely non-radiative.
Highlights
We investigate the dynamics of donor bound excitons (DXA) at T 1⁄4 10 K around an isolated single edge dislocation in homoepitaxial GaN, using a picosecond time-resolved cathodoluminescence (TR-CL) setup with high temporal and spatial resolutions
The high efficiency can be achieved even with high threading dislocation density (TDD) $108 cmÀ2 in the active layers, whose non-radiative character is evidenced by cathodoluminescence (CL)
When violet light emitting diodes (LEDs) are grown on traditional sapphire substrates, the corresponding $108 cmÀ2 TDD is the main issue for achieving high efficiency
Summary
We investigate the dynamics of donor bound excitons (DXA) at T 1⁄4 10 K around an isolated single edge dislocation in homoepitaxial GaN, using a picosecond time-resolved cathodoluminescence (TR-CL) setup with high temporal and spatial resolutions. It allows us to deduce an exciton diffusion length of $24 nm as well as an effective area of the dislocation with a radius of $95 nm, where the recombination can be regarded as entirely non-radiative.
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