OPTOELECTRONIC ARRANGEMENT AND METHOD

Organization Name

ams-OSRAM International GmbH

Inventor(s)

Jens Ebbecke of Helchenbach (DE)

OPTOELECTRONIC ARRANGEMENT AND METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18570929 titled 'OPTOELECTRONIC ARRANGEMENT AND METHOD

The optoelectronic arrangement described in the patent application includes an optoelectronic component with a layer stack containing an active area between layers of different conductive types, a substrate that generates an alternating electrical field with opposing field components, and at least one excitation element on or within the substrate. The optoelectronic component is positioned on the substrate so that the opposing field components of the alternating electrical field are perpendicular to the layers of the layer stack.

• Optoelectronic component with layer stack and active area
• Substrate generating alternating electrical field with opposing field components
• Excitation element on or within the substrate
• Arrangement ensuring perpendicular orientation of field components to layer stack layers

Potential Applications: - Optoelectronic devices - Semiconductor technology - Photovoltaic systems

Problems Solved: - Efficient generation and control of electrical fields in optoelectronic components - Enhanced performance and functionality of optoelectronic devices

Benefits: - Improved efficiency and performance of optoelectronic components - Enhanced control and manipulation of electrical fields - Potential for advanced applications in various industries

Commercial Applications: Title: Advanced Optoelectronic Devices for Enhanced Performance This technology can be utilized in the development of high-performance optoelectronic devices for applications in telecommunications, solar energy, and sensor technology. The enhanced control of electrical fields can lead to more efficient and reliable devices, opening up new opportunities in the market.

Prior Art: Further research can be conducted in the field of optoelectronics, semiconductor technology, and electrical field manipulation to explore existing technologies and innovations related to this patent application.

Frequently Updated Research: Researchers are continuously exploring new methods and materials for improving the performance and efficiency of optoelectronic devices. Stay updated on the latest advancements in semiconductor technology and optoelectronics to leverage the full potential of this innovation.

Questions about Optoelectronic Arrangements: 1. How does the orientation of the alternating electrical field impact the performance of optoelectronic components? 2. What are the potential challenges in implementing this technology in practical applications?

Original Abstract Submitted

In an embodiment an optoelectronic arrangement includes an optoelectronic component having a layer stack including an active area arranged between a layer of a first conductive type and a layer of a second conductive type, a substrate configured to generate an alternating electrical field at a surface of the substrate, the alternating electrical field having opposing field components and at least one first excitation element arranged on or within the substrate, wherein the optoelectronic component is arranged on the substrate such that the opposing field components of the alternating electrical field are substantially perpendicular to respective layers of the layer stack.