18575153. OPTOELECTRONIC COMPONENT THAT IS INSENSITIVE TO DISLOCATIONS simplified abstract (CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE)

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OPTOELECTRONIC COMPONENT THAT IS INSENSITIVE TO DISLOCATIONS

Organization Name

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE

Inventor(s)

Jean Baptiste Rodriguez of Saint-Gély du Fesc (FR)

Alexei Baranov of MONTPELLIER (FR)

Laurent Cerutti of Saint Jean de Vedas (FR)

Eric Tournie of MONTPELLIER (FR)

OPTOELECTRONIC COMPONENT THAT IS INSENSITIVE TO DISLOCATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18575153 titled 'OPTOELECTRONIC COMPONENT THAT IS INSENSITIVE TO DISLOCATIONS

The invention relates to an optoelectronic component that is insensitive to dislocations.

  • Simplified Explanation: The patent application describes an optoelectronic component that is designed to be unaffected by dislocations.
  • Key Features and Innovation:

- Optoelectronic component that remains stable despite dislocations - Ensures consistent performance over time - Addresses a common issue in optoelectronic devices

  • Potential Applications:

- Optical communication systems - Laser technology - Photovoltaic devices

  • Problems Solved:

- Dislocations affecting the performance of optoelectronic components - Instability in optoelectronic devices due to dislocations

  • Benefits:

- Improved reliability of optoelectronic components - Extended lifespan of devices - Enhanced performance under various conditions

  • Commercial Applications:

- Manufacturing of high-performance optoelectronic devices - Integration into telecommunications equipment - Use in renewable energy systems

  • Questions about Optoelectronic Components:

1. How do dislocations typically impact the performance of optoelectronic devices? - Dislocations can cause instability and reduce the efficiency of optoelectronic components.

2. What are the common methods used to mitigate the effects of dislocations in optoelectronic devices? - Some methods include material engineering and design modifications to minimize the impact of dislocations.

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Original Abstract Submitted

The invention relates to an optoelectronic component () that is insensitive to dislocations, comprising: