CN108827601A - A kind of measuring device of fibre optic interferometer arm length difference - Google Patents

Abstract

The present invention relates to a kind of measuring device of fibre optic interferometer arm length difference, mainly solve the problems, such as that the existing measuring system stability using optical interference method is not high and measurement accuracy is low.Fibre optic interferometer brachium difference measuring device of the invention, including：Narrow linewidth laser, polarization-maintaining fiber coupler, phase-modulator, polarization beat length device, acousto-optic frequency shifters, fiber coupler, testing fiber interferometer, photodetector, frequency spectrograph, signal processing and display module, microwave signal generator, interfered by double frequency combs in microwave domain, and interference signal is measured with frequency spectrograph, the arm length difference of testing fiber interferometer can be obtained by the bandwidth in interference signal a cycle, simultaneously the variation of measurement accuracy can be realized by changing the frequency interval of frequency comb, improve the stability of measurement accuracy and system, compensate for the shortcomings that cannot achieve big brachium difference measurements using the method for optical interference, its workflow is simple, replicability is strong.

Description

A kind of measuring device of fibre optic interferometer arm length difference

Technical field

The present invention relates to fibre optical sensor performance test measuring devices, more particularly to a kind of fibre optic interferometer arm length difference Measuring device.

Background technique

Fibre optic interferometer is communicated with its excellent performance in fiber optic temperature, vibrating sensing, fibre optic hydrophone and quantum key Equal fields have a wide range of applications.Interferometer two-arm arm length difference directly determines the measurement sensitivity of above-mentioned measurement and communication system And communication speed, with the fast development of contemporary communication technology and sensor measurement techniques, to the essence of interferometer two-arm arm length difference Really measurement is of great significance.

Mainly there are White Light Interferometer, coherent light interference striped meter to the measurement of fibre optic interferometer two-arm optical fiber length difference at present Number the methods of method and microwave photon mixing method, White Light Interferometer pass through to the received each white-light fringe of detector scanning mirror The accurate measurement of peak position obtains signal light and introduces optical path difference between two arms of interferometer, obtains arm length difference in conversion, but The length of its scanning range for being limited to scan table, measurable arm length difference is shorter；Coherent light interference Fringe-counting method passes through sight Interference fringe spacing measurement arm length difference is examined, relative difficulty is implemented；Microwave photon mixing method is by arm length difference signal modulation to light Carry on microwave phase, demodulation phase measures arm length difference, be able to achieve the measurement of degree of precision, but its structure is complicated, cost compared with It is high.The invention proposes a kind of measurement methods of new fibre optic interferometer arm length difference, are done by double frequency combs in microwave domain It relates to, and measures interference signal with frequency spectrograph, it is dry to can be obtained by testing fiber by the bandwidth in interference signal a cycle The arm length difference of interferometer.

Summary of the invention

The technical problem to be solved in the present invention overcomes existing defect, proposes a kind of survey of new fibre optic interferometer arm length difference Method and apparatus are measured, the variation of measurement accuracy can be realized by changing the frequency interval of frequency comb, improve the steady of measuring system Qualitative, the cost of the measuring system is low, and workflow is simple, and measurement range is wide.

The technical solution that the present invention uses to solve above-mentioned technical problem is as follows：The present invention is by using a kind of new light The measuring device of fine interferometer arm length difference, including narrow linewidth laser, polarization-maintaining fiber coupler, phase-modulator, polarization state control Device, acousto-optic frequency shifters, fiber coupler, testing fiber interferometer, photodetector, frequency spectrograph, signal processing and display mould processed Block, microwave signal generator.The light that the frequency of the narrow linewidth laser output is f is divided into two-way by polarization-maintaining fiber coupler Optical path, optical path 1 and optical path 2；The light of optical path 1 passes through phase-modulator, the frequency of the modulated signal applied on the phase-modulator Rate is f_m, modulated signal provides by microwave signal generator, and the phase-modulator output spectrum will occur with modulating frequency f_mFor A series of sidebands of integral multiple；Likewise, the light of optical path 2 passes through phase-modulator, the modulation applied on the phase-modulator The frequency of signal is f_m+f_c, modulated signal provides by microwave signal generator, the phase-modulator output spectrum will occur with Modulating frequency f_m+f_cFor a series of sidebands of integral multiple；The light of the phase-modulator output is described using acousto-optic frequency shifters The frequency of the modulated signal loaded in acousto-optic frequency shifters is f_AOM, modulated signal provides by microwave signal generator, the phase tune For the output light of device processed then after frequency shifter, the frequency of 2 light carrier of optical path becomes f+f_AOM；The optical path 1 and optical path 2 are by single Beat frequency will be generated after mode fiber coupler and forms optical frequency comb, and the frequency interval of the optical frequency comb is f_c；If the light Frequency comb passes through high-speed photodetector direct detection, and what is observed on frequency spectrograph is exactly rf frequency comb；In the optical path 1 The effect of polarization beat length device be that adjust the interference contrast that the polarization state of optical path 1 generates optical path 1 and optical path 2 best, from And improve the effect of two paths of signals beat frequency.

The testing fiber interferometer can be a Mach Zeng De (M-Z)) structure of interferometer, it is dry to be also possible to Michelson The structure of interferometer.

The frequency comb enters in testing fiber interferometer after single-mode optical-fibre coupler, and the interferometer to be measured is by shape It is divided into two-way optical frequency comb at frequency comb, two-way frequency comb occurs dry in frequency comb after the output end combining of interferometer to be measured It relates to, which just carries the arm length difference information of interferometer to be measured.

The technical solution that the present invention uses to solve above-mentioned technical problem, the work that the present invention is further explained uses are former Reason, specific measuring principle are as follows：

Measuring principle of the invention is the interference of radiofrequency signal, and frequency comb carries out photoelectric conversion through high-speed photodetector Afterwards, it exports and is combed for radio frequency, therefore frequency comb can be understood as light and carry radio frequency comb, light carries radio frequency comb by testing fiber interferometer Afterwards, it will be interfered in microwave domain, the period of the interference signal is determined by interferometer two-arm optical path difference to be measured, and testing fiber is dry The emergent light of interferometer is represented by：

I (f)=I₀[1+cosφ(f)] (1)

I in above formula₀To enter the light intensity for injecting interferometer to be measured, phase difference of the φ (f) between interferometer two-arm to be measured can It is expressed as：

D is interferometer two-arm arm length difference to be measured in above formula, and n is the refractive index of optical fiber, and c is the light velocity.Photodetector receives To interferometer to be measured export interference signal and be converted into electric signal, observe the electric signal, an available cosine with frequency spectrograph Microwave signal, the frequency interval Δ f between adjacent two wave crest or trough of the signal are：

Then the arm length difference of interferometer two-arm to be measured is represented by：

From the above equation, we can see that according to light velocity constant c, the signal in a cycle that the refractive index n and frequency spectrograph of optical fiber are obtained Frequency range Δ f, so that it may obtain the arm length difference of interferometer two-arm to be measured.

The beneficial effects of the present invention are：The measuring system is interfered by double frequency combs in microwave domain, and uses frequency spectrum Instrument measures interference signal, just can be obtained the arm length difference of testing fiber interferometer by the bandwidth in interference signal a cycle, Can also realize the variation of measurement accuracy by changing the frequency interval of frequency comb simultaneously, improve measuring system stability and Measurement accuracy, measurement operation is more simple and easy, and replicability is strong.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the measuring system block schematic illustration of double passage differential laser phase noise of the present invention；

Fig. 2 is Mach once moral fibre optic interferometer schematic diagram；

Fig. 3 is Michelson fiber-optic interferometer schematic diagram；

In attached drawing：

101, narrow linewidth laser 102, polarization-maintaining fiber coupler 103, phase-modulator

104, polarization beat length device 105, phase-modulator 106, acousto-optic frequency shifters

107, fiber coupler 108, testing fiber interferometer 109, photodetector

201, frequency spectrograph 202, signal processing and display module 203, microwave signal generator

204, microwave signal generator 205, microwave signal generator 301, fiber coupler

302, fiber coupler 401, fiber coupler

Specific embodiment

With reference to the accompanying drawings and detailed description, the present invention is furture elucidated, it should be understood that following specific embodiments are only For illustrating the present invention rather than limiting the scope of the invention.

A kind of measurement method of fibre optic interferometer arm length difference is interfered in microwave domain by double frequency combs, and uses frequency spectrum Instrument measures interference signal, can obtain the brachium of testing fiber interferometer by the bandwidth in interference signal a cycle Difference.

As shown in Figure 1, a kind of measuring device of fibre optic interferometer arm length difference, including narrow linewidth laser 101, polarization-maintaining Fiber coupler 102, phase-modulator 103, polarization beat length device 104, phase-modulator 105, acousto-optic frequency shifters 106, optical fiber Coupler 107, testing fiber interferometer 108, photodetector 109, frequency spectrograph 201, signal processing and display module 202, three A microwave signal generator 203,204,205.

The light that the frequency that the narrow linewidth laser 101 exports is f is divided into two-way light by polarization-maintaining fiber coupler 102 Road, optical path 1, optical path 2；The light of optical path 1 passes through phase-modulator 103, the modulated signal applied on the phase-modulator 103 Frequency is f_m, modulated signal provides by microwave signal generator 203, and 103 output spectrum of phase-modulator will occur to adjust Frequency f processed_mFor a series of sidebands of integral multiple；Likewise, the light of optical path 2 passes through phase-modulator 105, the phase-modulator The frequency of the modulated signal applied on 105 is f_m+f_c, modulated signal provides by microwave signal generator 204, the phase-modulation 105 output spectrum of device will occur with modulating frequency f_m+f_cFor a series of sidebands of integral multiple；What the phase-modulator 105 exported For light using acousto-optic frequency shifters 106, the frequency of the modulated signal loaded on the frequency shifter 106 is f_AOM, modulated signal is by microwave Signal generator 205 provides, and the output light of the phase-modulator 105 is then after frequency shifter 106, the frequency of 2 light carrier of optical path Rate becomes f+f_AOM；The optical path 1 and optical path 2 will generate beat frequency after single-mode optical-fibre coupler 107 and form optical frequency comb, The frequency interval of optical frequency comb is f_cIf the optical frequency comb passes through high-speed photodetector direct detection, seen on frequency spectrograph What is observed is exactly rf frequency comb, and the effect of the polarization beat length device 104 in the optical path 1 is that the polarization state of adjusting optical path 1 makes The interference contrast that optical path 1 and optical path 2 generate is best, to improve the effect of two paths of signals beat frequency.

The testing fiber interferometer 108 can be a Mach Zeng De (M-Z)) structure of interferometer, it is also possible to Michael The structure of inferior interferometer, Mach once moral fibre optic interferometer structure as shown in Fig. 2, 301 and 302 be fiber coupler, 1 and 2 are Input port, 3 and 4 be output port；As shown in figure 3,401 be fiber coupler, 1 is the structure of Michelson fiber-optic interferometer Input port, 2 be output port.

The frequency comb enters in testing fiber interferometer 108 after single-mode optical-fibre coupler 107, the interference to be measured Instrument 108 will form frequency comb and be divided into two-way optical frequency comb, and two-way frequency comb occurs after the output end combining of interferometer 108 to be measured Interference in frequency comb, the interference signal just carry the arm length difference information of interferometer to be measured.

The working principle that the measurement method of optical interferometer arm length difference of the invention uses includes as follows：

Measuring principle of the invention is the interference of radiofrequency signal, and frequency comb carries out photoelectricity through high-speed photodetector 109 and turns It after changing, exports and is combed for radio frequency, therefore frequency comb can be understood as light and carry radio frequency comb, light carries radio frequency comb by testing fiber interferometer It after 108, will be interfered in microwave domain, the period of the interference signal is determined by 108 two-arm optical path difference of interferometer to be measured, to be measured The emergent light of fibre optic interferometer 108 is represented by：

I (f)=I₀[1+cosφ(f)] (1)

I in above formula₀To enter the light intensity for injecting interferometer 108 to be measured, phase of the φ (f) between interferometer two-arm to be measured Difference is represented by：

D is interferometer two-arm arm length difference to be measured in above formula, and n is the refractive index of optical fiber, and c is the light velocity.Photodetector 109 connects It receives the interference signal that interferometer 108 to be measured exports and is converted into electric signal, observe the electric signal with frequency spectrograph 201, can obtain To a cosine microwave signal, the frequency interval Δ f between adjacent two wave crest or trough of the signal is：

The arm length difference of 108 two-arm of interferometer to be measured is represented by：

From the above equation, we can see that according to light velocity constant c, the letter in a cycle that the refractive index n and frequency spectrograph 201 of optical fiber are obtained Number frequency range Δ f, so that it may obtain the arm length difference of interferometer two-arm to be measured.

If two-arm arm length difference is 5mm, pass through between adjacent two wave crest of microwave signal that photodetector 109 exports Frequency interval is 30GHz, if two-arm arm length difference is 5m, adjacent two wave of microwave signal exported by photodetector 109 Frequency interval between peak is 300MHz.Therefore this method is particularly well suited to measure the interferometer of big arm length difference, compensates for utilization The method of optical interference cannot achieve the shortcomings that big brachium difference measurements.When d is constant, the modulating frequency for reducing phase-modulator can To reduce the repetition rate of frequency comb, make rf frequency smaller interval in frequency comb, thus the week for obtaining frequency spectrograph 201 Significant figure strong point in phase is more, and the precision of measurement result can be improved.

The workflow of fibre optic interferometer arm length difference measuring system proposed by the present invention is simple, and testing fiber interferometer is connect Enter into measuring system, after system electrification, records the frequency interval Δ f in frequency spectrograph output signal a cycle₂, according to formula (4) it can be obtained by result to be measured.

Although the illustrative specific embodiment of the present invention is described above, in order to the technology of the art Personnel are it will be appreciated that the present invention, but the present invention is not limited only to the range of specific embodiment, to the common skill of the art For art personnel, as long as long as various change the attached claims limit and determine spirit and scope of the invention in, one The innovation and creation using present inventive concept are cut in the column of protection.

Claims (5)

1. a kind of measuring device of fibre optic interferometer arm length difference, which is characterized in that interfered by double frequency combs in microwave domain, And interference signal is measured with frequency spectrograph, testing fiber interferometer just can be obtained by the bandwidth in interference signal a cycle Arm length difference.

2. a kind of measuring device of fibre optic interferometer arm length difference according to claim 1, which is characterized in that its hardware is flat Platform includes narrow linewidth laser 101, polarization-maintaining fiber coupler 102, phase-modulator 103, polarization beat length device 104, phase tune Device 105 processed, acousto-optic frequency shifters 106, fiber coupler 107, testing fiber interferometer 108, photodetector 109, frequency spectrograph 201,202, three microwave signal generators 203,204,205 of signal processing and display module.

3. a kind of measuring device of fibre optic interferometer arm length difference according to claim 1, which is characterized in that narrow linewidth swashs The light that the frequency that light device 101 exports is f is divided into two-way optical path, optical path 1, optical path 2 by polarization-maintaining fiber coupler 102；Optical path 1 Light passes through phase-modulator 103, and the frequency of the modulated signal applied on the phase-modulator 103 is f_m, modulated signal is by micro- Wave generator 203 provides, and 103 output spectrum of phase-modulator will occur with modulating frequency f_mFor a system of integral multiple Column sideband；Likewise, the light of optical path 2 passes through phase-modulator 105, the modulated signal applied on the phase-modulator 105 Frequency is f_m+f_c, modulated signal provides by microwave signal generator 204,105 output spectrum of phase-modulator will occur with Modulating frequency f_m+f_cFor a series of sidebands of integral multiple；The light that the phase-modulator 105 exports is using acousto-optic frequency shifters 106, the frequency of the modulated signal loaded on the frequency shifter 106 is f_AOM, modulated signal provides by microwave signal generator 205, For the output light of the phase-modulator 105 then after frequency shifter 106, the frequency of 2 light carrier of optical path becomes f+f_AOM；The light Road 1 and optical path 2 will generate beat frequency after single-mode optical-fibre coupler 107 and form optical frequency comb, the frequency interval of optical frequency comb For f_cIf the optical frequency comb passes through high-speed photodetector direct detection, what is observed on frequency spectrograph is exactly rf frequency It combs, the effect of the polarization beat length device 104 in the optical path 1 is that the polarization state of adjusting optical path 1 generates optical path 1 and optical path 2 Interfere contrast best, to improve the effect of two paths of signals beat frequency.

4. a kind of measuring device of fibre optic interferometer arm length difference according to claim 2, which is characterized in that it is described to Survey the structure that fibre optic interferometer 108 is the structure either Michelson's interferometer of a Mach Zeng De (M-Z) interferometer.

5. a kind of measuring device of fibre optic interferometer arm length difference according to claim 3, which is characterized in that pass through single mode Enter in testing fiber interferometer 108 after fiber coupler 107, the interferometer 108 to be measured is divided into two-way for frequency comb is formed Interference in frequency comb, the interference signal occur after the output end combining of interferometer 108 to be measured for optical frequency comb, two-way frequency comb Just carry the arm length difference information of interferometer to be measured.