Title :
Vacuum-Gap Capacitors for Low-Loss Superconducting Resonant Circuits
Author :
Cicak, Katarina ; Allman, Michael S. ; Strong, Joshua A. ; Osborn, Kevin D. ; Simmonds, Raymond W.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
fDate :
6/1/2009 12:00:00 AM
Abstract :
Low-loss microwave components are used in many superconducting resonant circuits from multiplexed readouts of low-temperature detector arrays to quantum bits. Two-level system defects in amorphous dielectric materials cause excess energy loss. In an effort to improve capacitor components, we have used optical lithography and micromachining techniques to develop superconducting parallel-plate capacitors in which lossy dielectrics are replaced by vacuum gaps. Resonance measurements at 50 mK on lumped LC circuits that incorporate these vacuum-gap capacitors (VGCs) reveal loss tangents at low powers as low as 4 times 10-5, significantly lower than with capacitors using amorphous dielectrics. VGCs are structurally robust, small, and easily scaled to capacitance values above 100 pF.
Keywords :
capacitors; micromachining; photolithography; sensor arrays; superconducting arrays; superconducting microwave devices; amorphous dielectric materials; low-loss superconducting resonant circuit; low-temperature detector array; micromachining technique; multiplexed readouts; optical lithography; quantum bits; superconducting parallel-plate capacitors; temperature 50 mK; vacuum-gap capacitor; High-Q resonator; loss tangent; low-loss superconducting capacitor; superconducting qubit; vacuum microelectronics; vacuum-gap capacitor;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2009.2019665
