MAGNETIC PARTICLE IMAGING DEVICE

Organization Name

Mitsubishi Electric Corporation

Inventor(s)

Kota Nomura of Chiyoda-ku, Tokyo (JP)

Tetsuya Matsuda of Chiyoda-ku, Tokyo (JP)

Kazuki Yamauchi of Chiyoda-ku, Tokyo (JP)

Masaomi Washino of Chiyoda-ku, Tokyo (JP)

MAGNETIC PARTICLE IMAGING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18285495 titled 'MAGNETIC PARTICLE IMAGING DEVICE

Simplified Explanation

The patent application describes a system involving multiple sets of coils to measure magnetic particles and output a signal representing the difference between the measurements.

• First measurement coils sandwich magnetic particles.
• Second measurement coils sandwich magnetic particles and the first measurement coils.
• Alternate-current magnetic field application coils sandwich magnetic particles, first measurement coils, and second measurement coils.
• Measurement device outputs a signal representing the difference between signals measured by the first and second measurement coils.

Potential Applications

This technology could be used in various industries such as:

• Biomedical research for studying magnetic particles in biological samples.
• Environmental monitoring for detecting magnetic particles in soil or water.
• Material science for analyzing magnetic properties of different materials.

Problems Solved

This technology addresses the following issues:

• Accurate measurement of magnetic particles in complex environments.
• Providing a reliable method for differentiating signals from multiple sets of coils.
• Enhancing the sensitivity and precision of magnetic particle measurements.

Benefits

The benefits of this technology include:

• Improved accuracy in measuring magnetic particles.
• Increased efficiency in analyzing magnetic properties.
• Enhanced capabilities for research and development in various fields.

Potential Commercial Applications

This technology has potential commercial applications in:

• Medical devices for diagnostics and treatment involving magnetic particles.
• Environmental monitoring equipment for detecting contaminants.
• Quality control systems for assessing magnetic properties of materials in manufacturing processes.

Possible Prior Art

One possible prior art for this technology could be the use of multiple coils in magnetic resonance imaging (MRI) systems to generate and detect magnetic fields for imaging purposes.

Unanswered Questions

How does this technology compare to existing methods for measuring magnetic particles?

This article does not provide a direct comparison with other existing methods or technologies for measuring magnetic particles. Further research or testing may be needed to evaluate the performance and efficiency of this system in comparison to traditional methods.

What are the limitations of this technology in terms of scalability and adaptability to different environments?

The article does not address the scalability or adaptability of this technology to various environments or scales of operation. Understanding the limitations of this system in terms of scalability and adaptability is crucial for assessing its practicality in real-world applications.

Original Abstract Submitted

A pair of first measurement coils is disposed so as to sandwich magnetic particles. A pair of second measurement coils is disposed so as to sandwich magnetic particles and the pair of first measurement coils. A pair of alternate-current magnetic field application coils is disposed so as to sandwich magnetic particles, the pair of first measurement coils, and the pair of second measurement coils. A measurement device outputs a signal representing a difference between a signal measured by the pair of first measurement coils and a signal measured by the pair of second measurement coils.