Coherent photon analog-to-digital conversion device

We claim: 1. A coherent photon analog-to-digital conversion device, comprising an optical clock oscillation source ( 1 ) having a first output, a second output, and an input, a photon sampling gate ( 3 ) having a first input, a second input, and an output, a sampled signal source ( 4 ) having an output and an input, a photoelectric detection module ( 5 ) having an input and an output, an electrical sampling module ( 7 ), a phase detection module ( 9 ) having a first input, a second input, and an output, a loop filter ( 10 ) having an input and an output, a first signal feedback link ( 11 ), and a second signal feedback link ( 12 ), wherein the first output of the optical clock oscillation source ( 1 ) is connected with the first input of the photon sampling gate ( 3 ); the output of the sampled signal source ( 4 ) is connected with the second input of the photon sampling gate ( 3 ); the output of the photon sampling gate ( 3 ) is connected with the input of the photoelectric detection module ( 5 ); the output of the photoelectric detection module ( 5 ) is divided into a first part and a second part, the first part is connected with the electrical sampling module ( 7 ), and the second part is connected with the first input of the phase detection module ( 9 ); the second output of the optical clock oscillation source ( 1 ) is connected with the second input of the phase detection module ( 9 ); the output of the phase detection module ( 9 ) is connected with the input of the loop filter ( 10 ); wherein the output of the loop filter ( 10 ) is connected with the input of the optical clock oscillation source ( 1 ) via the first signal feedback link ( 11 ), wherein locking of the optical clock oscillator source ( 1 ) is realized; and wherein the output of the loop filter ( 10 ) is connected with the input of the sampled signal source ( 4 ) via the second signal feedback link ( 12 ), wherein locking of the sampled signal source ( 4 ) is realized. 2. The coherent photon analog-to-digital conversion device of claim 1 , wherein the optical clock oscillation source ( 1 ) is a passive mode-locked laser, an active mode-locked laser, or a modulation frequency comb. 3. The coherent photon analog-to-digital conversion device of claim 1 , wherein the sampled signal source ( 4 ) is a voltage controlled oscillator, a frequency synthesizer source, a passive mode-locked laser, an active mode-locked laser, or a modulated frequency comb. 4. The coherent photon analog-to-digital conversion device of claim 1 , wherein the photon sampling gate ( 3 ) is a lithium niobate electro-optic modulator, a polymer electro-optic modulator, a silicon-based integrated electro-optic modulator, a spatial light modulator, a photonic crystal fiber, or a highly nonlinear fiber. 5. The coherent photon analog-to-digital conversion device of claim 1 , wherein the photoelectric detection module is a Positive Intrinsic-Negative or an Avalanche Photo Diode. 6. The coherent photon analog-to-digital conversion device of claim 1 , wherein the electrical sampling module ( 7 ) is an oscilloscope or an information processing card. 7. The coherent photon analog-to-digital conversion device of claim 1 , wherein the phase detection module ( 10 ) is a Radio Frequency mixer, which is used for generating a desired mixing signal. 8. The coherent photon analog-to-digital conversion device of claim 1 , wherein the loop filter ( 10 ) is an Radio Frequency low pass filter. 9. The coherent photon analog-to-digital conversion device of claim 1 , wherein the first signal feedback link and the second signal feedback link are power amplifiers or Proportion-Integral-Derivative servers.