Claims
- 1. A superconducting microstrip filter having a resonator section including a plurality of resonators cascaded in a line along a propagation path of signals to be filtered, each of the resonators comprising a microstrip hair pin resonator configured as a λ/2 resonator, said plurality of resonators being constructed so that adjoining ones of the plurality of resonators are alternately rotated by 180°, whereineach of said plurality of resonators includes a current density reduction part at a center portion along a length direction of a line pattern thereof, said center portion of the respective line pattern being broader in line width that than the remainder of the line pattern thereof.
- 2. A superconducting microstrip filter as set forth in claim 1, wherein said current density reduction part exhibits a circular shape.
- 3. A superconducting microstrip filter having an input line section to which signals to be filtered are input and having a resonator section comprising a superconducting material and arranged adjoining the input line section and including a plurality of resonators cascaded in a line along a propagation path of signals to be filtered, each of the resonators comprising a microstrip hair pin resonator configured as a ω/2 resonator, said plurality of resonators being constructed so that adjoining ones of the plurality of resonators are alternately rotated by 180°, whereinonly said input line section has a line pattern comprising a non-superconducting material being able to increase the permissible current density relative to that of said superconducting material.
- 4. A superconducting microstrip filter as set forth in claim 3, wherein said non-superconducting material is a conducting material.
- 5. A superconducting microstrip filter having a resonator section including a plurality of resonators cascaded in a line along a propagation path of signals to be filtered, each of the plurality of resonators having respective line patterns and comprising a microstrip hair pin resonator configured as a λ/2 resonator, said plurality of resonators being constructed so that adjoining ones of the plurality of resonators are alternately rotated by 180°, whereinthree or more of said plurality of resonators cascaded at a middle cart of said propagation path and in the vicinity thereof include current density reduction parts at center portions of the line patterns thereof; said current density reduction parts being larger in size in said resonators located nearer to said middle part.
- 6. A superconducting microstrip filter having a resonator section including a plurality of resonators cascaded in a line along a propagation path of signals to be filtered, each of the plurality of resonators having respective line patterns, whereinthree or more of said plurality of resonators cascaded at a middle part of said propagation path and in the vicinity thereof include current density reduction parts over the entire length of the line patterns thereof; said current density reduction parts having line widths of said line patterns that are broadest at the center of said middle part and that that become narrower in successive ones of said plurality of resonators, moving away from said middle part.
- 7. A superconducting microstrip filter as set forth in claim 6, wherein a respective pitch p between adjoining resonators becomes larger moving along said propagation path of signals toward said middle part.
- 8. A superconducting microstrip filter having an input line section to which signals to be filtered are input and having a resonator section arranged adjoining the input line section and including at least one resonator, whereinsaid input line section comprises a current density reduction part in one part of a line pattern of the input line section and said current density reduction part has a line width at a portion of the line pattern of the respective line that is broader than the line width at other portions of said line pattern of the respective line, and a current concentration is at a maximum in the broader portion of the line pattern of the respective line.
- 9. A superconducting microstrip filter as set forth in claim 8, wherein said input line section and an input conductor to which said signal is input are coupled in substantially an L-shape, and a further current density reduction part is disposed at the coupling portion and has a line width broader than the line width of portions of the input line section and the input conductor other than this the coupling portion.
- 10. A superconducting microstrip filter as set forth in claim 9, wherein said current density reduction part exhibits a circular shape.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a continuation application and is based upon PCT/JP00/00491, filed on Jan. 28, 2000.
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Continuations (1)
|
Number |
Date |
Country |
Parent |
PCT/JP00/00491 |
Jan 2000 |
US |
Child |
10/207620 |
|
US |