Researchers funded by the Air Force Office of Scientific
Research (AFOSR) at the University
of Michigan invented a
new type of magnetron that may be used to defeat enemy electronics. A magnetron
is type of vacuum tube used as the frequency source in microwave ovens, radar
systems and other high-power microwave circuits.
According to Dr. Ron Gilgenbach, an AFOSR-sponsored
researcher at the University of Michigan, a new class of magnetrons was
invented that holds the potential for more compact Department of Defense
microwave sources with faster start-up, as well as higher peak and average
power.
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Researchers funded by the US Air Force Office of Scientific Research at the University of Michigan invented a new type of magnetron that may be used to defeat enemy electronics. A magnetron is a type of vacuum tube used as the frequency source in microwave ovens, radar systems and other high-power microwave circuits. Credit: Photo courtesy of the University of Michigan and the Air Force Research Laboratory
"This invention should make it possible to develop more
compact magnetrons that operate at higher power and higher frequencies,"
said Gilgenbach. "Higher power magnetrons could be utilized to jam and
defeat enemy electronics."
The magnetron has been vital to military radar systems since
World War II. Over time the basic design of the magnetron has not changed much.
However, the University
of Michigan researchers
have revolutionized the design of both conventional and inverted magnetrons by
expanding the cathode (negatively charged electrode) and anode (positively
charged electrode) area into a new type of magnetron, which permits higher
current and larger area for heat dissipation in a more compact device.
This research has a significant impact on the Air Force's
radar capabilities. The newly invented magnetron's higher frequencies have the
potential to improve radar resolution. Additionally, the more compact packaging
of the new magnetron could encourage airborne applications.
"This invention exploits some plasma physics principles
that have been applied to this problem as well as an innovative, new geometry
to overcome the physical limitations of conventional magnetrons," said
Gilgenbach. "The vision is to explore both a high power version of the
magnetron invention and a separate higher frequency (mm wave) embodiment."
AFOSR has been funding the research that led to this
invention under the program direction of Dr. Robert Barker, Physics and
Electronics program manager. Dr. Barker speaks highly of the University of
Michigan-led team, which includes co-inventors: R.M. Gilgenbach (UM), Y.Y. Lau
(UM), Brad Hoff (formerly UM, currently at AFRL), David French (UM), and John
Luginsland (NumerEx).
"The Michigan
group led by Profs. Gilgenbach and Lau has long been a mainstay of AFOSR's high
power microwave (HPM) research team," said Barker. "Not only is it
internationally recognized for its scientific accomplishments as exemplified by
this new invention, but this Michigan
group also serves as an example for the rest of the university community. It
has established active collaborations with AFRL counterparts and provided a
steady stream of graduates to staff the ranks of the Air Force's HPM research
and development establishment."
Air Force
Office of Scientific Research
