Tapered connectors for superconductor circuits

What is claimed is: 1. A superconducting circuit, comprising: a first component having a first connection point, the first connection point having a first width; a second component having a second connection point, the second connection point having a second width that is larger than the first width; and a connector electrically connecting the first connection point and the second connection point, the connector comprising: a first taper having a first slope and a non-linear shape; a second taper having a second slope; and a connecting portion connecting the first taper to the second taper, the connecting portion having a third slope that is less than the first slope and less than the second slope. 2. The superconducting circuit of claim 1 , wherein the connector is adapted to reduce current crowding within the connector. 3. The superconducting circuit of claim 1 , wherein the first taper narrows from an intermediate width to the first width, wherein the intermediate width is less than five times the first width. 4. The superconducting circuit of claim 1 , wherein the second taper has a linear shape. 5. The superconducting circuit of claim 1 , wherein the first taper and the connecting portion connect at a third connection point; and wherein respective first derivatives of the first taper and the connecting portion are matched at the third connection point. 6. The superconducting circuit of claim 1 , wherein the second taper and the connecting portion connect at a fourth connection point; and wherein respective first derivatives of the second taper and the connecting portion are matched at the fourth connection point. 7. The superconducting circuit of claim 1 , wherein the second width is at least ten times larger than the first width. 8. The superconducting circuit of claim 1 , wherein the first component, the second component, and the connector are arranged on a same layer of superconducting material. 9. The superconducting circuit of claim 1 , wherein the first component, the second component, and the connector are composed of a same material. 10. The superconducting circuit of claim 1 , wherein the first component is a photon detector. 11. The superconducting circuit of claim 1 , wherein the second component comprises a pad or via. 12. The superconducting circuit of claim 1 , wherein the second component comprises an inductor or resistor. 13. A superconducting circuit, comprising: a first component having a first connection point, the first connection point having a first width; a second component having a second connection point, the second connection point having a second width that is larger than the first width; and a connector electrically connecting the first connection point and the second connection point, the connector comprising: a first taper positioned adjacent the first connection point and having a non-linear shape; and a second taper positioned adjacent the second connection point and having a linear shape. 14. A superconducting component, comprising: a first portion having a first width; a second portion having a second width; a curved portion coupling the first portion and the second portion, wherein the curved portion has a third width that is at least three times greater than the first width and at least three times greater than the second width; and tapered portions connecting the curved portion to the first portion and the second portion. 15. The superconducting component of claim 14 , wherein the first portion and the second portion are substantially parallel. 16. The superconducting component of claim 14 , wherein the first portion and/or the second portion is linear in shape. 17. The superconducting component of claim 14 , wherein the curved portion is u-shaped. 18. The superconducting component of claim 14 , wherein the curved portion includes a first end and a second end, opposite the first end; and wherein first end and the second end are substantially parallel. 19. The superconducting component of claim 14 , wherein the tapered portions are shaped to reduce current crowding effects in the tapered portions. 20. A superconducting circuit, comprising: a first component having a first connection point, the first connection point having a first width; a second component having a second connection point, the second connection point having a second width that is larger than the first width; and a connector electrically connecting the first connection point and the second connection point, the connector comprising a tapered portion shaped to reduce current crowding effects, the tapered shape comprising an elongation of a taper that meets one or more current crowding reduction criteria. 21. The superconducting circuit of claim 20 , wherein an elongation factor α of the elongation is a predefined function of a lithography drift displacement Δx.