Company Filing History:

14 out of 8,384

Massachusetts Institute of Technology

patents

2 out of 65

Railway Technical Research Institute

patents

where one patent can have more than one assignee

Years Active: 1994-2020

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14 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 10804018 - Partial insulation superconducting magnet (2020-10-13),

2. 10580573 - Persistent-mode MRI magnet fabricated from reacted, monofilamentary MgB2 wires and joints (2020-03-03),

3. 10079092 - High-temperature superconducting high-current devices compensated for anisotropic effects (2018-09-18),

4. 10062485 - High-temperature superconducting high-current cables (2018-08-28),

5. 9799435 - Partial insulation superconducting magnet (2017-10-24),

6. 9627119 - [object Object] (2017-04-18),

7. 9324486 - Partial insulation superconducting magnet (2016-04-26),

8. 9117578 - No-insulation multi-width winding for high temperature superconducting magnets (2015-08-25),

9. 8965468 - Persistent-mode high-temperature superconducting shim coils to enhance spatial magnetic field homogeneity for superconducting magnets (2015-02-24),

10. 8228148 - Annular magnet system for magnetic resonance spectroscopy (2012-07-24),

11. 7859374 - Annular magnet system for magnetic resonance spectroscopy (2010-12-28),

12. 6389685 - Method for current sharing in a superconducting current lead (2002-05-21),

13. 5724820 - Permanent magnet system based on high-temperature superconductors with (1998-03-10),

14. 5332988 - Removable coil form for superconducting nmr magnets and a method for its (1994-07-26),

Introduction

Yukikazu Iwasa, an accomplished inventor based in Weston, MA, has significantly impacted the field of superconducting technology with a portfolio of 14 patents. His innovative approaches have led to the development of advanced superconducting magnets, advancing research and practical applications in various industries.

Latest Patents

Among his latest innovations, Iwasa has developed a "Partial Insulation Superconducting Magnet." This invention involves a unique design where a coil is constructed using non-insulated superconducting wire windings around a bobbin. The structure features a sophisticated layering system, including a first wire layer, a second wire layer that substantially encloses the first, and an insulating layer in between to prevent electrical interference.

Another notable patent is for a "Persistent-Mode MRI Magnet Fabricated from Reacted, Monofilamentary MgB2 Wires and Joints." This superconducting magnet is crafted by winding a coil from a processed MgB monofilament wire. The invention describes a method for constructing the magnet by filling a cavity within a stainless steel billet with Mg+B powder, optimizing the magnet's efficiency and performance.

Career Highlights

Iwasa has an impressive background, having worked with renowned institutions like the Massachusetts Institute of Technology (MIT) and the Railway Technical Research Institute. His tenure at these prestigious organizations has enabled him to be at the forefront of superconducting research and innovations.

Collaborations

Throughout his career, Iwasa has collaborated with esteemed colleagues, including Seungyong Hahn and Juan Bascunan. These partnerships have fostered a collaborative environment that contributes to the advancement of technology in superconductivity.

Conclusion

Yukikazu Iwasa stands as a prominent figure in the field of superconducting technologies. His inventions not only demonstrate his innovative spirit but also reflect the potential for future advancements in medical imaging and other applications. With 14 patents to his name, he continues to be a driving force in research and development, making significant contributions that enhance our understanding and utilization of superconducting materials.

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