Photon detector and process for detecting a single photon

What is claimed is: 1. A photon detector article comprising: a photon detector configured to receive a primary waveform, the photon detector comprising: a multiplication region; a photon absorption region; a punch through voltage range; and a breakdown voltage; a source in electrical communication with the photon detector and configured to provide the primary waveform that comprises: a first voltage that is: less than a maximum value of the punch through voltage range, or effective to maintain a charge carrier in the absorption region; and a second voltage that is greater than the breakdown voltage; and a reference member in electrical communication with the source, the reference member being to provide a reference waveform in response to receiving the primary waveform. 2. The photon detector article of claim 1 , wherein the photon detector further is configured to receive a single photon and to produce a signal pulse in response to receipt of the single photon. 3. The photon detector article of claim 2 , wherein the photon detector is a voltage variable capacitor that is configured to produce a photon detector waveform comprising: a positive pulse corresponding to a transition from the first voltage to the second voltage; a negative pulse corresponding to a transition from the second voltage to the first voltage; and the signal pulse interposed between the positive pulse and the negative pulse. 4. The photon detector article of claim 3 , further comprising a combiner in electrical communication with the photon detector and the reference member to combine the photon detector waveform and the reference waveform. 5. The photon detector article of claim 4 , wherein the combiner is configured to produce a signal waveform, the signal waveform consisting essentially of the signal pulse. 6. The photon detector article of claim 5 , wherein the primary waveform further comprises: a first gate; a second gate; and an inter-gate period interposed between the first gate and the second gate, wherein a voltage amplitude of the inter-gate period is less than the maximum value of the punch through voltage range or effective to maintain the charge carrier in the absorption region. 7. The photon detector article of claim 6 , wherein the photon detector is configured to receive the single photon during the first gate, and to produce the signal pulse during the first gate. 8. The photon detector article of claim 6 , wherein the photon detector is configured to receive the single photon during the inter-gate period and to produce the signal pulse during the second gate. 9. The photon detector article of claim 6 , wherein the first gate comprises a first pulse width from 10 ps to 10 ns. 10. The photon detector article of claim 5 , further comprising a detector to detect the signal waveform. 11. The photon detector article of claim 1 , further comprising a light source to provide the single photon to the photon detector. 12. The photon detector article of claim 1 , wherein the primary waveform further comprises a duty cycle that is less than or equal to 50%. 13. The photon detector article of claim 1 , wherein the primary waveform further comprises a repetition rate from 100 Hz to 5 GHz. 14. The photon detector article of claim 1 , wherein the primary waveform further comprises a peak-to-peak voltage amplitude from the first voltage to the second voltage that is from 1 V to 50 V. 15. The photon detector article of claim 1 , wherein the primary waveform further comprises a superposition of a plurality of sine waves, the plurality of sine waves comprising: a first sine wave comprising a fundamental frequency; a second sine wave comprising a second harmonic of the fundamental frequency; and a third sine wave comprising a third harmonic of the fundamental frequency. 16. A process for detecting a single photon, the process comprising: producing, by a source, a primary waveform that comprises: a first voltage; and a second voltage; receiving, by a photon detector, the primary waveform, the photon detector comprising: a punch through voltage such that the first voltage is: less than a maximum value of the punch through voltage range, or effective to maintain a charge carrier in the absorption region; and a break down voltage that is less than the second voltage; biasing the photon detector according to the primary waveform; receiving, by the photon detector, a single photon; producing, by the photon detector, a photon detector waveform in response to receiving the single photon and the primary waveform, the photon detector waveform comprising: a positive pulse corresponding to a transition from the first voltage to the second voltage; a negative pulse corresponding to a transition from the second voltage to the first voltage; and a signal pulse interposed between the positive pulse and the negative pulse; receiving, by a reference member, the primary waveform; producing, by the reference member, a reference waveform in response to receiving the primary waveform; combining, by a combiner, the photon detector waveform and the reference waveform; producing, by the combiner, a signal waveform consisting essentially of the signal pulse; and detecting, by a detector, the signal pulse to detect the single photon. 17. The process of claim 16 , wherein receiving the single photon occurs when the photon detector is biased at the second voltage or less than the punch through voltage. 18. The process of claim 16 , wherein producing the primary waveform comprises forming a superposition of a plurality of sine waves. 19. The process of claim 18 wherein the plurality of sine waves comprises: a first sine wave comprising a fundamental frequency; a second sine wave comprising a second harmonic of the fundamental frequency; and a third sine wave comprising a third harmonic of the fundamental frequency.