IMAGING APPARATUS

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Yosuke Asai of Osaka (JP)

Hiroshi Yamaguchi of Osaka (JP)

Kazuhiro Yamada of Osaka (JP)

IMAGING APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240036192 titled 'IMAGING APPARATUS

Simplified Explanation

The abstract describes an imaging apparatus that uses a reflector to diffusely reflect a sub-terahertz wave in an imaging space. The apparatus includes two light sources that emit sub-terahertz waves onto the reflector, and two detectors that receive the reflected waves from an imaging target in a specific detection space.

• The reflector covers the imaging space and diffusely reflects the sub-terahertz wave.
• Two light sources emit sub-terahertz waves onto the reflector.
• Two detectors receive the reflected waves from the imaging target in a specific detection space.
• The angles defined by the center line and line segments connecting points and detectors are within a specific range.

Potential applications of this technology:

• Medical imaging: The imaging apparatus can be used for non-invasive imaging of biological tissues, allowing for early detection of diseases or abnormalities.
• Security screening: The apparatus can be used for detecting concealed objects or substances in bags or clothing, enhancing security measures.
• Material analysis: The sub-terahertz waves can be used to analyze the composition and properties of various materials, aiding in quality control and research.

Problems solved by this technology:

• Non-invasive imaging: The apparatus provides a non-invasive method for imaging objects or biological tissues, reducing the need for invasive procedures.
• Enhanced detection: The use of sub-terahertz waves and the specific detection space improve the detection capabilities of the imaging apparatus, allowing for more accurate and reliable results.
• Versatile imaging: The apparatus can be used for imaging a wide range of objects and materials, providing flexibility in various applications.

Benefits of this technology:

• Improved imaging quality: The diffused reflection of the sub-terahertz wave and the specific detection space enhance the imaging quality, providing clearer and more detailed images.
• Non-destructive analysis: The non-invasive nature of the imaging apparatus allows for analysis without causing damage or alteration to the objects or materials being examined.
• Increased efficiency: The use of two light sources and detectors allows for simultaneous imaging and detection, increasing the efficiency of the imaging process.

Original Abstract Submitted

an imaging apparatus includes: a reflector which covers an imaging space on a pathway, from both sides of pathway, and diffusely reflects a sub-terahertz wave; first and a second light sources each of which emits a sub-terahertz wave onto the reflector; first and a second detectors each of which receives a reflected wave by the imaging target in a first detection space, −4.5�<�w1−�c1<4.5� is satisfied where an angle defined by a center line and a line segment connecting a first point and a second point is �w1 and an angle defined by the center line and a line segment connecting the first detector and the second point is �c1, the first point being closest to the first direction side of the first portion and the second point being closest to the first direction side on the center line in the first detection space.