Mikhail Shneider

Title: Mikhail Shneider: Innovator in Flow Control and Material Properties Detection

Introduction

Mikhail Shneider is a prominent inventor based in Princeton, NJ (US). He has made significant contributions to the fields of flow control and material properties detection, holding a total of 3 patents. His innovative work has implications for various industries, including aerospace and materials science.

Latest Patents

One of Mikhail Shneider's latest patents is titled "Systems and methods for controlling flows with electrical pulses." This invention discloses a system that includes an aerodynamic body with a flow surface exposed to an adjacent air stream. The flow control assembly features a first electrode positioned near the flow surface and a second electrode spaced apart from it. A dielectric material is placed between the electrodes, and a controller directs air-ionizing pulses to the electrodes, providing a steady-state signal during intervals between the pulses.

Another notable patent is the "Method and apparatus for detecting surface and subsurface properties of materials." This invention describes a method for remotely monitoring properties of gases, plasmas, and materials. A focused laser beam generates an ionized sample region, and microwave radiation is directed toward this region. The scattered microwave radiation is then processed to determine various properties of the analyzed materials.

Career Highlights

Mikhail Shneider has worked with prestigious organizations, including Princeton University and The Boeing Company. His experience in these institutions has allowed him to collaborate on cutting-edge research and development projects, further enhancing his expertise in his field.

Collaborations

Mikhail has collaborated with notable colleagues such as Richard B. Miles and Sergey O. Macheret. These partnerships have contributed to the advancement of his research and the successful development of his patented technologies.

Conclusion

Mikhail Shneider's innovative contributions to flow control and material properties detection demonstrate his significant impact on technology and research. His patents reflect a commitment to advancing scientific understanding and practical applications in various fields.