Company Filing History:
Years Active: 1998
Title: A I Vasin: Innovator in Plasma Thruster Technology
Introduction
A I Vasin is a prominent inventor based in Moscow, Russia. He has made significant contributions to the field of plasma thruster technology, holding a total of 3 patents. His work focuses on enhancing the efficiency and functionality of thrusters used in satellite maneuvering.
Latest Patents
One of A I Vasin's latest patents is the Hall effect plasma thruster. This innovative device utilizes a stream of ions to produce thrust, which can be deflected by adjusting a magnetic field. This adjustment allows for precise steering of satellites and other vehicles. The design includes a flared channel at the open end to prevent erosion caused by ion deflection. The magnetic field is controlled by dividing the outer magnetic pole into separate sectors, each with individual electric coils, allowing for tailored adjustments.
Another notable patent is the Hall effect plasma accelerator. This device features an annular accelerating channel with a radial magnetic field applied across it. Unlike traditional designs, the magnetic poles are defined on separate bodies of material, providing greater flexibility in the design and dimensions of the thruster. This innovation aims to improve thruster efficiency and accommodate various shapes based on available space.
Career Highlights
A I Vasin is currently employed at Space Power, Inc., where he continues to develop advanced technologies in the field of plasma propulsion. His work has positioned him as a key figure in the industry, contributing to the advancement of satellite technology.
Collaborations
Throughout his career, A I Vasin has collaborated with notable coworkers, including V A Petrosov and Y M Yashnov. These partnerships have fostered innovation and the sharing of ideas within the field.
Conclusion
A I Vasin's contributions to plasma thruster technology demonstrate his commitment to advancing aerospace engineering. His innovative patents and collaborative efforts continue to shape the future of satellite maneuvering systems.