MOCVD Technology for Visible Light Emitting II-VI Lasers

Objectif

The aim of the project is to develop the II-VI MOCVD technology and its applications in the field of blue light emission (Light Emitting and laser diodes):

- high purity II-VI precursor technology
- MOCVD equipment technology
- develop the knowledge on II-VI quantum heterostructures and their applications in device structures
- develop the knowledge concerning II-VI material processing.
There is a great demand for visible light emitting semiconductor lasers. III-V materials are not well suited for short wavelength applications because their band gap is generally not wide enough. The best potential materials are the wide gap II-VI compounds (based on zinc selenium, zinc tellurium, zinc sulphide) which are intrinsically better luminescent materials than the III-V materials. Research is being carried out in order to produce a semiconductor laser device, emitting in the visible range (blue), in which the active structure is based on metal organic chemical vapour deposition (MOCVD) grown wide gap II-VI compounds. This involves developing equipment technology and basic work on precursors prior to the growth and subsequent device processing on the epitaxial layers.

The growth of wide gap II-VI compounds using novel precursors has been done. It has been demonstrated that extremely high purity materials (zinc, selenium, zinc tellurium and zinc sulphide) could be obtained from triethylamine dimethylzinc.

This work demonstrate that a level of purity similar to III-V precursors can now be achieved with original II-VI precursors. Other new precursors are currently studied. The successful growth of zinc selenium, zinc tellurium short period superlattices has been demonstrated by MOCVD using these precursors. This type of structures will be used in the design of modulation doped devices.

A plasma precracking cell for plasma assisted doping has also been developed.
APPROACH AND METHODS

The consortium plans to develop wide-gap II-VI compounds growth and doping processes using the MOCVD technology, as European MOCVD growth technologies (equipment and precursors) are very competitive and because MOCVD is widely employed in the industry for the production of compound semiconductor devices (mainly III-V transistors, photodetectors and emitters).

The approach is two-fold. Firstly, a conventional laser structure will be made, involving a p-type ZnSe layer. This needs control of p-type doping in ZnSe. Secondly, a superlattice-based junction will be designed using n-type ZnSe and p-type ZnTe which is capable of exhibiting blue light emission.

POTENTIAL

The technology of optical information storage is limited by the density of information stored by the resolution of a system. This resolution depends both on disc media and technology, and also on the electro-optical reading system (the main element being the wavelength of the semiconductor laser employed). Up to now, only near infrared lasers based on III-V materials (GaAs/GaAlAs) have been employed, but their long wavelength is a limiting factor for the increase of the information density on the disc. The Blue sources using II-VI materials should constitute a major breakthrough in this domain.

Champ scientifique (EuroSciVoc)

CORDIS classe les projets avec EuroSciVoc, une taxonomie multilingue des domaines scientifiques, grâce à un processus semi-automatique basé sur des techniques TLN. Voir: Le vocabulaire scientifique européen.

• ingénierie et technologie génie électrique, génie électronique, génie de l’information ingénierie électronique capteurs capteurs optiques
• sciences naturelles sciences chimiques chimie inorganique métal de transition
• sciences naturelles sciences physiques électromagnétisme et électronique dispositif à semiconducteur
• sciences naturelles sciences chimiques chimie inorganique métalloïde
• sciences naturelles sciences physiques optique physique des lasers

Programme(s)

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• FP3-ESPRIT 3 - Specific research and technological development programme (EEC) in the field of information technologies, 1990-1994

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