Title :
The application of photonic crystals to quasi-optic amplifiers
Author :
Higgins, John Aiden ; Kim, Moonil ; Hacker, Jonathan B. ; Sievenpiper, Dan
Author_Institution :
Rockwell Sci. Center, Thousand Oaks, CA, USA
fDate :
11/1/1999 12:00:00 AM
Abstract :
Quasi-optical spatial power combining provides the high combining efficiency required of solid-state power amplifiers for millimeter-wave frequencies. Photonic crystals (PXTs) are used to implement this type of power combining, as shown by two examples in this paper. The first example describes an all-dielectric structure that provides a carrier for the amplifier array chip satisfying the requirements concerning unilateral transmission and thermal management. The second example describes the use of a high impedance ground plane, based on PXTs, to make the power density incident on the array chip as uniform as possible in order to maximize power and efficiency
Keywords :
integrated circuit packaging; microwave materials; millimetre wave power amplifiers; photonic band gap; power combiners; rectangular waveguides; thermal management (packaging); EHF; MM-wave frequencies; PBG material; all-dielectric structure; amplifier array chip carrier; high impedance ground plane; photonic crystals; quasi-optic amplifiers; quasi-optical spatial power combining; rectangular waveguide sidewalls; solid-state power amplifiers; thermal management; unilateral transmission; Frequency; High power amplifiers; Microstrip antennas; Optical amplifiers; Optical arrays; Optical waveguides; PHEMTs; Photonic crystals; Polarization; Power amplifiers;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
