Title :
Slotted-disk sapphire quasi-optical resonator with conducting endplates
Author :
Barannik, A.A. ; Cherpak, N.T. ; Torohtiy, K.I. ; Vitusevich, S.A.
Author_Institution :
Dept. of Solid State Radiophys., IRE, Kharkov, Ukraine
Abstract :
Quasi-optical dielectric resonator (QDR) in a form of slotted sapphire disk sandwiched between conducting endplates (CEP) is proposed and studied in Ka-band. The resonator is excited on whispering gallery modes. Mode identification of the slotted disk resonator with CEP is carried out. The measurement data are compared with simulated frequencies and Q-factors of the resonator with a copper sample under test and CEP. The calculation results are obtained using CST Microwave Studio software. The proposed and studied sapphire QDR is a promising basis for high accuracy measurements of small conducting samples (unconventional superconductors e.g. pniktides and HTS cuprates, nanotubes etc.) in millimeter wavelength range.
Keywords :
Q-factor; dielectric resonators; optical resonators; physics computing; sapphire; whispering gallery modes; Al2O3; Q-factors; conducting endplates; microwave studio software; mode identification; quasioptical dielectric resonator; slotted-disk sapphire quasioptical resonator; whispering gallery modes; Dielectrics; High temperature superconductors; Microwave theory and techniques; Optical resonators; Q factor; Surface impedance; Whispering gallery modes; Dielectric resonators; Q-factor; electromagnetic fields; millimeter-wave measurements; whispering gallery modes;
Conference_Titel :
Microwave Conference (EuMC), 2011 41st European
Conference_Location :
Manchester
Print_ISBN :
978-1-61284-235-6
