Josephson junction readout for graphene-based single photon detector

What is claimed is: 1. A photon detector comprising: a graphene sheet configured to absorb infrared electromagnetic waves and to undergo an increase in a temperature of the graphene sheet when a photon of the infrared electromagnetic waves is absorbed by the graphene sheet; a Josephson junction on the graphene sheet, the Josephson junction having a gap coupled to electrons of the graphene sheet; and a circuit connected to two contacts of the Josephson junction, the circuit configured to detect a decrease in a critical current of the Josephson junction, the decrease corresponding to the increase in the temperature of the graphene sheet. 2. The photon detector of claim 1 , wherein the graphene sheet has an electron mobility of more than 100,000 cm2/V/s. 3. The photon detector of claim 1 , wherein the graphene sheet has an electron mobility of about 1,000 cm2/V/s. 4. The photon detector of claim 1 , wherein the graphene sheet substantially has the shape of a rectangle, the rectangle having a length and a width, the length being greater than or equal to the width. 5. The photon detector of claim 4 , wherein the length of the rectangle is less than 20 microns. 6. The photon detector of claim 4 , wherein the product of the length of the rectangle and the width of the rectangle is less than 1000 square microns. 7. The photon detector of claim 1 , comprising a first layer of hexagonal boron nitride immediately adjacent a first surface of the graphene sheet, and a second layer of hexagonal boron nitride immediately adjacent a second surface of the graphene sheet. 8. The photon detector of claim 7 , wherein each of the first layer of hexagonal boron nitride and the second layer of hexagonal boron nitride has a thickness greater than 4 nm and less than 40 nm. 9. The photon detector of claim 1 , wherein the circuit comprises a current source connected to the two contacts of the Josephson junction and configured to drive a constant bias current through the Josephson junction. 10. The photon detector of claim 9 , further comprising an amplifier connected to the two contacts of the Josephson junction. 11. The photon detector of claim 10 , further comprising a matching circuit connected between the two contacts and the amplifier. 12. The photon detector of claim 11 , further comprising a pulse detector connected to the amplifier, the pulse detector comprising a voltage reference and a comparator configured to compare a signal at an output of the amplifier to a voltage at an output of the voltage reference. 13. The detector of claim 1 , wherein the graphene sheet consists of a single atomic layer of graphene. 14. The detector of claim 1 , wherein the graphene sheet comprises two atomic layers of graphene. 15. The photon detector of claim 1 , further comprising a refrigerator configured to cool the graphene sheet to a temperature below 4 K. 16. The photon detector of claim 15 , wherein the refrigerator is a pulse tube refrigerator. 17. The photon detector of claim 15 , wherein the refrigerator is a Gifford-McMahon cooler.