Virtual Cathode Oscillator as High Power Microwave Source
Electromagnetic Weapon System
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Theoretic fundamental principles, system designrules, high power microwave measurement andexperimental data on virtual cathode oscillator, atype of high power microwave source, are presented inthis book. Virtual cathode oscillator can work as acore part of electromagnetic missiles,electromagnetic bombs, high power pulse radars andhigh power jammers; furthermore, it can provide highpower microwave source for accelerators and Tokamaks.The author conducted in-depth research inspace charge limited current for coaxial vacuumdiodes and developed an analytic expression forLangmuir-Blodgett law, which...
Theoretic fundamental principles, system design
rules, high power microwave measurement and
experimental data on virtual cathode oscillator, a
type of high power microwave source, are presented in
this book. Virtual cathode oscillator can work as a
core part of electromagnetic missiles,
electromagnetic bombs, high power pulse radars and
high power jammers; furthermore, it can provide high
power microwave source for accelerators and Tokamaks.
The author conducted in-depth research in
space charge limited current for coaxial vacuum
diodes and developed an analytic expression for
Langmuir-Blodgett law, which is a counterpart of
Child-Langmuir law. Another highlight of this book
is the microwave virtual cavity concept that the
author proposed based on experimental data obtained
while in Texas Tech University, which is an important
contribution to traditional microwave resonance
cavity theory. This book also explores high power
microwave measurement and proposes a novel approach
to monitor high power microwave pulses. In summary,
engineers and scientists working on high power
microwave sources and other relative areas will
benefit from the book.
rules, high power microwave measurement and
experimental data on virtual cathode oscillator, a
type of high power microwave source, are presented in
this book. Virtual cathode oscillator can work as a
core part of electromagnetic missiles,
electromagnetic bombs, high power pulse radars and
high power jammers; furthermore, it can provide high
power microwave source for accelerators and Tokamaks.
The author conducted in-depth research in
space charge limited current for coaxial vacuum
diodes and developed an analytic expression for
Langmuir-Blodgett law, which is a counterpart of
Child-Langmuir law. Another highlight of this book
is the microwave virtual cavity concept that the
author proposed based on experimental data obtained
while in Texas Tech University, which is an important
contribution to traditional microwave resonance
cavity theory. This book also explores high power
microwave measurement and proposes a novel approach
to monitor high power microwave pulses. In summary,
engineers and scientists working on high power
microwave sources and other relative areas will
benefit from the book.
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