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Gap size dependence of the dielectric strength in nano vacuum gaps
David Lyon, Alfred Hubler
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Dive into the research topics of 'Gap size dependence of the dielectric strength in nano vacuum gaps'. Together they form a unique fingerprint.
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Keyphrases
Size Dependence
100%
Gap Size
100%
Vacuum Gap
100%
Dielectric Strength
100%
Power Density
40%
Discharge Time
40%
Charge Density
20%
Power Law
20%
Power Law Dependence
20%
Tungsten
20%
Specific Capacitance
20%
Tungsten Electrode
20%
Self-discharge
20%
Maximum Energy Density
20%
Volumetric Energy Density
20%
Material Science
Mechanical Strength
100%
Dielectric Material
100%
Density
60%
Energy Density
40%
Tungsten
40%
Capacitance
20%
Engineering
Dielectric Strength
100%
Energy Density
40%
Nanosecond
40%
Power Density
40%
Charge Density
20%
Physics
Dielectrics
100%
Flux Density
40%