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Cyber-Physical Systems Virtual Organization
Read-only archive of site from September 29, 2023.
CPS-VO
double-ridge slow-wave structures
biblio
Criteria for Determining Maximum Theoretical Oscillating Frequency of Extended Interaction Oscillators for Terahertz Applications
Submitted by grigby1 on Fri, 04/24/2020 - 4:09pm
Resonant frequency
O-type microwave tubes
one ring-loaded waveguide
oscillating behaviors
Oscillators
privacy
pubcrawl
Radio frequency
resilience
Resiliency
millimeter-wave radiations
sheet electron beam
slow wave structures
slow-wave structure
specified EIO geometry
terahertz (THz) sources
terahertz applications
terahertz radiations
vacuum microelectronics
waveguides
extended interaction oscillators
beam geometries
Cavity resonators
composability
Conductivity
critical unloaded oscillating frequency
current density
cylindrical beam
double-ridge slow-wave structures
electron beams
2π standing-wave modes
Extended interaction oscillators (EIOs)
Geometry
high-frequency behavior
high-frequency vacuum-electronic source
high-power submillimeter wavelengths
load-lines
maximum theoretical oscillating frequency
Metrics
millimeter-wave