Title :
Propagation characteristics of monolithic YBaCuO coplanar strip transmission lines fabricated by laser-writing patterning technique
Author :
Maung, Win Naing ; Butler, Donald P. ; Xiong, W. ; Kula, W. ; Sobolewski, Roman
Author_Institution :
Dept. of Electr. Eng., Southern Methodist Univ., Dallas, TX, USA
fDate :
5/1/1994 12:00:00 AM
Abstract :
We report our studies on the propagation characteristics of YBa/sub 2/Cu/sub 3/O/sub 7/-on-LaAlO/sub 3/ superconducting coplanar strip transmission lines and resonators fabricated with a novel laser-writing patterning technique. The measurements were performed in the 0.1 to 15 GHz frequency range at temperatures between 300 and 24 K. We show that at temperatures below the superconducting critical temperature, the S/sub 21/ parameter of our transmission lines was close to 0 dB at all the frequencies, while the Q-factor of the resonator structure was as high as 5000 at 6 GHz and 24 K. The transmission line propagation velocity was about 10/sup 8/ cm/s. Our results indicate that the laser-writing patterning technique can be effectively used to fabricate high-quality superconducting microwave elements and circuits.<>
Keywords :
Q-factor; barium compounds; high-temperature superconductors; laser beam applications; resonators; strip line components; superconducting microwave devices; superconducting thin films; superconducting transition temperature; yttrium compounds; 0.1 to 15 GHz; 24 to 300 K; HTSC; LaAlO/sub 3/; LaAlO/sub 3/ substrate; Q-factor; YBCO; YBa/sub 2/Cu/sub 3/O/sub 7/-LaAlO/sub 3/; YBaCuO coplanar striplines; laser-writing patterning; monolithic strip transmission lines; propagation characteristics; propagation velocity; superconducting critical temperature; superconducting microwave elements; superconducting resonators; superconducting transmission lines; Coplanar transmission lines; Frequency measurement; Optical propagation; Strips; Superconducting microwave devices; Superconducting transmission lines; Temperature distribution; Transmission line measurements; Velocity measurement; Yttrium barium copper oxide;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
