SEMICONDUCTOR-LAMINATED SUBSTRATE, LIGHT EMITTING COMPONENT, AND MEASUREMENT APPARATUS

Organization Name

fujifilm business innovation corp.

Inventor(s)

Takashi Kondo of Kanagawa (JP)

Michiaki Murata of Kanagawa (JP)

Saori Nishizaki of Kanagawa (JP)

Takafumi Higuchi of Kanagawa (JP)

SEMICONDUCTOR-LAMINATED SUBSTRATE, LIGHT EMITTING COMPONENT, AND MEASUREMENT APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240105882 titled 'SEMICONDUCTOR-LAMINATED SUBSTRATE, LIGHT EMITTING COMPONENT, AND MEASUREMENT APPARATUS

Simplified Explanation

The semiconductor-laminated substrate described in the patent application includes a substrate and a laminated structure consisting of a first semiconductor laminate processed into a light-emitting element and a second semiconductor laminate processed into at least one thyristor. The laminated structure is adjusted so that two resonant wavelengths due to the thyristor are located on both sides of a resonant wavelength of the light-emitting element.

• Substrate with laminated structure
• First semiconductor laminate processed into a light-emitting element
• Second semiconductor laminate processed into at least one thyristor
• Adjustment of laminated structure for resonant wavelengths

Potential Applications

The technology described in this patent application could be applied in:

• Optoelectronic devices
• Power electronics
• Solid-state lighting

Problems Solved

This technology addresses the following issues:

• Efficient integration of light-emitting elements and thyristors
• Optimization of resonant wavelengths for improved performance

Benefits

The benefits of this technology include:

• Enhanced functionality of semiconductor-laminated substrates
• Improved performance of light-emitting elements and thyristors
• Potential for compact and efficient device design

Potential Commercial Applications

The potential commercial applications of this technology could include:

• LED lighting systems
• Power control devices
• Semiconductor manufacturing industry

Possible Prior Art

One possible prior art for this technology could be the integration of light-emitting elements and thyristors in semiconductor devices for improved performance.

What are the specific resonant wavelengths adjusted in the laminated structure?

The specific resonant wavelengths adjusted in the laminated structure are two wavelengths due to the effect of the thyristor, located on both sides of the resonant wavelength of the light-emitting element.

How does the adjustment of the laminated structure impact the overall performance of the semiconductor-laminated substrate?

The adjustment of the laminated structure ensures that the resonant wavelengths of the thyristor do not interfere with the resonant wavelength of the light-emitting element, leading to optimized performance and functionality of the semiconductor-laminated substrate.

Original Abstract Submitted

a semiconductor-laminated substrate includes: a substrate; and a laminated structure that includes a first semiconductor laminate which is provided on the substrate and processed into a light emitting element and a second semiconductor laminate which is provided on the first semiconductor laminate and processed into at least one thyristor, in which the laminated structure is adjusted such that two resonant wavelengths due to an effect of the thyristor are located on both sides of a resonant wavelength of the light emitting element.