Characterization of the carrier localization confinement for InGaN/GaN multiple quantum well heterostructures with hydrogen-flow treatments

Ta Chuan Kuo*, Wei Jen Chen, Chih Chun Ke, Cheng Wei Hung, Hui Tang Shen, Jen Cheng Wang, Ya Fen Wu, Tzer En Nee

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

3 Scopus citations

Abstract

Major developments in group-III nitride semiconductors have led to the commercial production of InGaN-based blue/green multiple quantum well (MQW) laser diodes (LDs) and light-emitting diodes (LEDs) for use in varied applications. The main approaches have been adopted to meet the increasing demands for improved efficiency in modern optoelectronic devices; enhancing the light extraction and the quantum efficiency. In this work, the improvement of carrier localization confinement in InGaN/GaN multiple quantum well structures has been achieved by introducing hydrogen-flow treatment into the growth procedures. To characterize the radiative recombination mechanisms in the active layers, the temperature-dependent photo luminescence (PL) of InGaN/GaN MQW structures have been measured. It has been found the strong temperature- dependent blueshift of the emission peak energy for the conventional MQW sample due to band filling effect. As the temperature increased, for the MQW sample with hydrogen-flow treatment, it has been found the emission peak of PL spectra exhibited an obvious red-blue-red shift, i.e., S-shaped shift. By introduction of hydrogen flow during the growth procedures, it has been expected not only to encourage atom coherence motions tend to three-dimension cluster formations but also to provide a stronger localization confinement ability to enhance exciton radiative recombinations in the band tail of the density of states. From the Arrhenius plot of PL intensity, compared with the value of 120 meV achieved for the conventional MQW sample, the higher activation energy value of 300 meV for the MQW sample with hydrogen-flow treatment implies that there was better confinement ability for the excess charge carriers.

Original languageEnglish
Title of host publicationGallium Nitride Materials and Devices II
DOIs
StatePublished - 2007
EventGallium Nitride Materials and Devices II - San Jose, CA, United States
Duration: 22 01 200725 01 2007

Publication series

NameProceedings of SPIE - The International Society for Optical Engineering
Volume6473
ISSN (Print)0277-786X

Conference

ConferenceGallium Nitride Materials and Devices II
Country/TerritoryUnited States
CitySan Jose, CA
Period22/01/0725/01/07

Keywords

  • Carrier confinement
  • Hydrogen
  • Multiple quantum well
  • Thermal quenching

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