Title :
A monolithic single-crystal yttrium iron garnet/silicon X-band circulator
Author :
Oliver, S.A. ; Zavracky, P.M. ; McGruer, N.E. ; Schmidt, R.
Author_Institution :
Center for Electromagn. Res., Northeastern Univ., Boston, MA, USA
Abstract :
Production of truly monolithic microwave integrated circuits that incorporate ferrite passive control elements has been hindered by the material property mismatches between ferrites and semiconductors. In this work, monolithic Y-junction circulators were fabricated by bonding 100-μm-thick single-crystal yttrium iron garnet films to silicon at 195/spl deg/C, and then removing the gadolinium gallium garnet substrate. S-parameter measurements on the circulator and matching microstrip circuit yield an isolation of 20 dB over a 1 GHz bandwidth at 9 GHz, with a minimum insertion loss near 1 dB. Improvements in circuit design and fabrication techniques may yield monolithic circulators that are fully compatible with large-scale semiconductor manufacturing methods.
Keywords :
MMIC; S-parameters; ferrite circulators; garnets; integrated circuit technology; losses; microstrip circuits; microwave circulators; silicon; yttrium compounds; 1 GHz; 1 dB; 195 C; 9 GHz; GGG substrate removal; GdGG; GdGa5O12; S-parameter measurements; SHF; Si; Y-junction circulators; YFe5O12-Si; YIG-Si; YIG/Si X-band circulator; bonding; fabrication techniques; ferrite passive control elements; matching microstrip circuit; minimum insertion loss; monolithic X-band circulator; monolithic microwave integrated circuits; single-crystal YIG films; Circulators; Ferrites; Garnets; Iron; MMICs; Microwave integrated circuits; Monolithic integrated circuits; Production; Silicon; Yttrium;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
