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2002
Journal Article
Titel
Er-doped AlGaAs native oxides: Photoluminescence characterization and process optimization
Abstract
We present 300 K photoluminescence (PL) characterization data for wet thermal native oxides of Al0.58Ga0.42As films grown by metal organic chemical vapor deposition and doped with Er via multiple high-energy ion implants (for 0.0675, 0.135, and 0.27 atomic percent (at.%) peak Er concentrations), and Al0.5Ga0.5As and Al0.8In0.2As films doped with Er (0.03-0.26 at.%) during molecular beam epitaxy crystal growth. Broad spectra with a 50-nm full-width at half-maximum and a PL peak at 1.534 m are observed, characteristic of Al2O3:Er films. The dependencies of PL intensity, spectra, and lifetime on annealing temperature (675°C-900°C), time (2-60 min) and As overpressure (0-0.82 atm) are studied to optimize the annealing process, with As considered as a possible quenching mechanism. Wet and dry-oxidized films are compared to explore the role of hydroxyl (OH) groups identified by Fourier transform infrared (FTIR) spectroscopy. FTIR experiments employing heavy water (D2O) sugges t that OH groups in wet oxidized AlGaAs come mainly from post-oxidation adsorption of atmospheric moisture. AlGaAs:Er films wet oxidized with 0.1% O2 added to the N2 carrier gas show a fourfold PL intensity increase, doubled PL lifetime to 5.0 ms (0.27 at.% implanted sample), and the lowest degree of concentration quenching.