Method and apparatus for optical asynchronous sampling signal measurements

What is claimed is: 1. A method for measuring an optical distance difference between a target optical path and a calibration optical path, comprising the steps of: a) generating a first optical pulse sequence and a second optical pulse sequence from a pulsed light source; b) splitting the first optical pulse sequence into a first branch and a second branch; c) passing the first branch through the calibration optical path to transform the first branch into a calibration pulse sequence; d) passing the second branch through the target optical path to transform the second branch into a target pulse sequence; e) merging the calibration pulse sequence and the target pulse sequence to generate the signal pulse sequence; f) passing the second optical pulse sequence through a reference optical path to transform the second optical pulse sequence into a reference pulse sequence; and g) passing the signal pulse sequence and the reference pulse sequence into a detection device to generate an asynchronous sampling signal, where the time difference between the target pulse sequence and the calibration pulse sequence in the signal pulse sequence are calculated from the asynchronous sampling signal and the time difference is further used to measure the optical distance difference between the target optical path and the calibration optical path. 2. The method of claim 1 , where one or both the first optical pulse sequence and the second optical pulse sequence pass through one or more devices selected from the group consisting of a power control device, a pulse waveform transformer, a polarization controller and a nonlinear optical device. 3. The method of claim 1 , where the reference pulse sequence and the signal pulse sequence interact in the detection device to generate an asynchronous sampling signal selected from the group consisting of a field-dependent signal and an intensity-dependent signal. 4. The method of claim 1 , where the reference pulse sequence and the signal pulse sequence interact in a pulse interaction device, where pulses of the signal pulse sequence that are overlapped with pulses of the reference pulse sequence in a temporal domain are changed after the interaction, where changes in pulses of the signal pulse sequence are measured to yield the asynchronous sampling signal. 5. A method for measuring an optical distance difference between a target optical path and a calibration optical path, comprising the steps of: a) generating a first optical pulse sequence and a second optical pulse sequence from a pulsed light source; b) splitting the first optical pulse sequence into a first branch and a second branch; c) passing the first branch through the calibration optical path to transform the first branch into a calibration pulse sequence; d) passing the second branch through the target optical path to transform the second branch into a target pulse sequence; e) merging the calibration pulse sequence and the target pulse sequence to generate the signal pulse sequence; f) passing the second optical pulse sequence through a reference optical path to transform the second optical pulse sequence into a reference pulse sequence; and g) passing the signal pulse sequence and the reference pulse sequence into a detection device to generate an asynchronous sampling signal, to measure the optical distance difference between the target optical path and the calibration optical path. 6. The method of claim 5 , where one or both the first optical pulse sequence and the second optical pulse sequence pass through one or more devices selected from the group consisting of a power control device, a pulse waveform transformer, a polarization controller and a nonlinear optical device. 7. The method of claim 5 , where the reference pulse sequence and the signal pulse sequence interact in the detection device to generate an asynchronous sampling signal selected from the group consisting of a field-dependent signal and an intensity-dependent signal. 8. The method of claim 5 , where the reference pulse sequence and the signal pulse sequence interact in a pulse interaction device, where pulses of the signal pulse sequence that are overlapped in time with pulses of the reference pulse sequence are changed after the interaction, where changes in pulses of the signal pulse sequence are measured to yield the asynchronous sampling signal. 9. A method for measuring a target optical path distance, comprising the steps of: a) generating a first optical pulse sequence and a second optical pulse sequence from a pulsed light source; b) splitting the first optical pulse sequence into a first branch and a second branch; c) passing the first branch through a calibration optical path of known distance to transform the first branch into a calibration pulse sequence; d) passing the second branch through a target optical path to transform the second branch into a target pulse sequence; e) merging the calibration pulse sequence and the target pulse sequence to generate the signal pulse sequence; f) passing the second optical pulse sequence through a reference optical path to transform the second optical pulse sequence into a reference pulse sequence; and g) passing the signal pulse sequence and the reference pulse sequence into a detection device to generate an asynchronous sampling signal, to measure the optical distance difference between the target optical path and the calibration optical path of known distance and thereby the target optical path distance. 10. The method of claim 9 , where one or both the first optical pulse sequence and the second optical pulse sequence pass through one or more devices selected from the group consisting of a power control device, a pulse waveform transformer, a polarization controller and a nonlinear optical device. 11. The method of claim 9 , where the reference pulse sequence and the signal pulse sequence interact in the detection device to generate an asynchronous sampling signal selected from the group consisting of a field-dependent signal and an intensity-dependent signal. 12. The method of claim 9 , where the reference pulse sequence and the signal pulse sequence interact in a pulse interaction device, where pulses of the signal pulse sequence that are overlapped in time with pulses of the reference pulse sequence are changed after the interaction, where changes in pulses of the signal pulse sequence are measured to yield the asynchronous sampling signal.