SEMICONDUCTOR OPTICAL DEVICE

Organization Name

Mitsubishi Electric Corporation

Inventor(s)

Yusuke Azuma of Tokyo (JP)

SEMICONDUCTOR OPTICAL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18579335 titled 'SEMICONDUCTOR OPTICAL DEVICE

The abstract describes a patent application for a laser diode and modulator on a semiconductor substrate. The modulator modulates laser light emitted from the laser diode, with lead-out electrodes and electrode pads provided for connectivity.

• Laser diode and modulator on a semiconductor substrate
• Modulator modulates laser light emitted from the laser diode
• Lead-out electrodes and electrode pads for connectivity
• Gap provided between lead-out electrodes and electrode pads

Potential Applications: - Optical communication systems - Laser-based sensors - Laser printing technology

Problems Solved: - Efficient modulation of laser light - Enhanced connectivity for laser diode systems

Benefits: - Improved performance of laser diode systems - Enhanced modulation capabilities - Increased reliability in optical communication

Commercial Applications: Title: Advanced Laser Diode Modulation Technology for Optical Communication Systems This technology can be utilized in telecommunications, data transmission, and laser-based industrial applications. The market implications include improved efficiency and reliability in optical communication systems.

Prior Art: Readers can explore prior patents related to laser diode modulation and semiconductor substrate technologies to gain a deeper understanding of the field.

Frequently Updated Research: Stay updated on advancements in laser diode modulation techniques and semiconductor substrate materials for potential improvements in performance and efficiency.

Questions about Laser Diode Modulation Technology: 1. How does this technology compare to traditional laser modulation methods? This technology offers enhanced modulation capabilities and improved connectivity compared to traditional methods.

2. What are the key advantages of using a semiconductor substrate for laser diode systems? Semiconductor substrates provide a stable platform for integrating laser diodes and modulators, leading to improved performance and reliability.

Original Abstract Submitted

A laser diode () and a modulator () are provided on a semiconductor substrate (). A modulator () has a modulator electrode () and modulates laser light emitted from the laser diode (). A plurality of lead-out electrodes () are led out from the modulator electrode (). A plurality of electrode pads () respectively faces the plurality of lead-out electrodes (). A gap () is provided between the lead-out electrode () and the electrode pad () facing each other.