Optical apparatus and method for outputting one or more photons

What is claimed is: 1. An optical apparatus comprising: a first photon pair source configured to convert at least one pump light photon into a first correlated photon pair, the first correlated photon pair comprising a first signal photon and a first idler photon; and a second photon pair source configured to convert at least one further pump light photon into a second correlated photon pair, the second correlated photon pair comprising a second signal photon and a second idler photon, wherein the apparatus is configured to use one of: the first signal photon; or the first idler photon, for controlling the conversion by the second photon pair source of the at least one further pump light photon. 2. An optical apparatus as claimed in claim 1 , wherein the apparatus is configured such that: at least one of the first signal photon or the first idler photon from the first correlated photon pair is output from the first photon pair source onto an optical path; and at least one of the second signal photon or the second idler photon from the second correlated photon pair is output from the second photon pair source onto the optical path. 3. An optical apparatus as claimed in claim 2 , wherein at least part of the second photon pair source is disposed along the optical path. 4. An optical apparatus as claimed in claim 2 , wherein the second photon pair source is separated from and optically coupled to the optical path. 5. An optical apparatus as claimed in claim 2 , wherein the apparatus is configured such that the control of the conversion of the at least one further pump light photon comprises a change in the photon pair conversion processes occurring within the second photon pair source, the change being synchronised with the arrival, at the second photon pair source, of the first signal photon or the first idler photon from the first correlated photon pair along the optical path. 6. An optical apparatus as claimed in claim 1 , wherein the apparatus is configured to input pump light output from the first photon pair source into the second photon pair source. 7. An optical apparatus as claimed in claim 1 , further comprising an optical detector, wherein: the apparatus is configured to detect, using the optical detector, the one photon from the first correlated photon pair used to control the conversion of the at least one further pump light photon; and the apparatus is configured, upon the optical detector detecting the one photon, to generate an electrical signal for controlling the conversion of the at least one further pump light photon. 8. An optical apparatus as claimed in claim 7 , wherein the apparatus is configured to use the electrical signal to temporarily change an optical property of the second photon pair source, the optical property affecting the conversion of the at least one further pump light photon. 9. An optical apparatus as claimed in claim 7 , wherein the apparatus comprises a pump light controlling device configured to receive the electrical signal and change the amount of pump light input to the second photon pair source. 10. An optical apparatus as claimed in claim 7 , further comprising an optical filter device for spatially separating the first signal photon and the first idler photon, wherein the apparatus is configured to: direct one of the first signal photon or the first idler photon from the filter to the detector; and direct the other of the first signal photon or the first idler photon from the first correlated photon pair along the optical path, wherein the optical path is configured to: optically couple with the second photon pair source about a coupling region; and direct the other of the first signal photon or the first idler photon towards the coupling region. 11. A method for outputting one or more photons, the method comprising: receiving pump light at a first photon pair source, the pump light comprising at least one pump light photon; converting the at least one pump light photon into a first correlated photon pair, the first correlated photon pair comprising a first signal photon and a first idler photon; and using one of: the first signal photon; or the first idler photon, for controlling the conversion of at least one further pump light photon in a second photon pair source into a second correlated photon pair, the second correlated photon pair comprising a second signal photon and a second idler photon. 12. A method as claimed in claim 11 , wherein using the first signal photon or the first idler photon comprises stopping the conversion of the at least one further pump light photon in the second photon pair source. 13. An optical apparatus comprising a first photon pair source configured to convert at least one pump light photon into a first correlated photon pair, the first correlated photon pair comprising a first signal photon and a first idler photon; and a second photon pair source configured to convert at least one further pump light photon into a second correlated photon pair, the second correlated photon pair comprising a second signal photon and a second idler photon; wherein the first photon pair source and the second photon pair source are arranged in an optically linked concatenated series, wherein the apparatus is configured such that, at least one of the first signal photon or the first idler photon is output from the first photon pair source onto an optical path; at least one of the second signal photon or the second idler photon is output from the second photon pair source onto the optical path. 14. An optical apparatus as claimed in claim 13 , wherein the apparatus is configured to use one of the first signal photon or the first idler photon for controlling the conversion of the at least one further pump light photon. 15. An optical apparatus as claimed in claims 13 , wherein the apparatus is configured such that control of the conversion of the at least one further pump light photon comprises a change in the photon pair conversion processes occurring within the second photon pair source, the change being synchronised with the arrival, at the second photon pair source, of the at least one of the signal or the idler photons from the first correlated photon pair along the optical path. 16. An optical apparatus as claimed in claim 13 , wherein the apparatus is configured to input pump light output from the first photon pair source into the second photon pair source. 17. An optical apparatus as claimed in claim 14 , comprising an optical detector, wherein: the apparatus is configured to detect, using the optical detector, the one of the first signal photon or the first idler photon for controlling the conversion of the least one further pump light photon; and the apparatus is configured, upon the optical detector detecting the one of the first signal photon or the first idler photon, to generate an electrical signal for controlling the conversion of the at least one further pump light photon. 18. An optical apparatus as claimed in claim 1 , wherein the apparatus is configured to use one of the first signal photon or the first idler photon converted by the first photon pair source to prevent the second photon pair source from generating the second correlated photon pair. 19. An optical apparatus as claimed in claim 13 , wherein the apparatus is configured to use one of the first signal photon or the first idler photon converted by the first photon pair source to prevent the second photon pair source from generating the second correlated photon pair