SPECTROSCOPIC DEVICE, SPECTROSCOPIC METHOD USING THE SAME, AND METHOD OF FABRICATING SEMICONDUCTOR MEMORY DEVICE USING THE SAME

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Jaeho Kim of Suwon-si (KR)

Souk Kim of Seoul (KR)

Younghoon Sohn of Seoul (KR)

SPECTROSCOPIC DEVICE, SPECTROSCOPIC METHOD USING THE SAME, AND METHOD OF FABRICATING SEMICONDUCTOR MEMORY DEVICE USING THE SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 17895486 titled 'SPECTROSCOPIC DEVICE, SPECTROSCOPIC METHOD USING THE SAME, AND METHOD OF FABRICATING SEMICONDUCTOR MEMORY DEVICE USING THE SAME

Simplified Explanation

The abstract describes a spectroscopic device that uses a combination of a main light source, auxiliary light sources, a diffraction grating, a detection part, and an analyzing part.

• The device emits a first light towards a target object using a main light source and auxiliary light sources of different wavelengths.
• The first light is reflected from the target object and produces a second light.
• A diffraction grating diffracts the second light and produces a third light.
• The detection part, consisting of multiple pixels and an actuator, detects the third light.
• An analyzing part is connected to the detection part for further analysis.

Potential applications of this technology:

• Spectroscopy: The device can be used for analyzing the composition of materials by measuring the wavelengths of light they emit or reflect.
• Chemical analysis: It can be used in laboratories or industrial settings to identify and analyze the chemical components of substances.
• Environmental monitoring: The device can be used to measure the presence of specific gases or pollutants in the air or water.
• Medical diagnostics: It can be utilized in medical devices to analyze bodily fluids or tissues for diagnostic purposes.

Problems solved by this technology:

• Enhanced accuracy: The use of multiple auxiliary light sources and a diffraction grating allows for more precise measurements and analysis of the target object.
• Versatility: The device can be used for a wide range of applications due to its ability to emit light of different wavelengths and detect various types of light.
• Efficiency: The actuator enables the detection part to rotate and move, optimizing the detection process and improving overall efficiency.

Benefits of this technology:

• Improved data collection: The device provides more comprehensive and accurate data for analysis, leading to better insights and decision-making.
• Time-saving: The device's efficiency and versatility contribute to faster data collection and analysis, saving time in various applications.
• Cost-effective: The device's ability to perform multiple functions and its accuracy can lead to cost savings in research, analysis, and diagnostics.

Original Abstract Submitted

A spectroscopic device may include a light source part configured to emit a first light toward a target object, the light source part including a main light source and a plurality of auxiliary light sources, a diffraction part including a diffraction grating configured to diffract a second light that is produced based on the first light being reflected from the target object, the diffraction grating configured to produce a third light that is the diffracted second light, a detection part configured to detect the third light, and an analyzing part connected to the detection part. The detection part may include a plurality of pixels and an actuator. The plurality of auxiliary light sources may be configured to emit light rays of different wavelengths. The actuator may be configured to rotate and move the detection part.