CN1462891A - Mass center method for adjusting core making automatic end to end joint for wave-guide and optical fiber - Google Patents

Abstract

A centroidal centralizing method for automatic butt coupling between waveguide and optical fibre features that the peak position can be determined by measuring the calculating the mass center near the peak, and includes initializing, coarse steps, fine steps, integration to find mass center, and repeating said steps for finding out the mass center of another dimension. Its equipment is composed of voltage-stabilized power supply, heat-stability light source, two sets of 6D precise regulator, regulator for fixing waveguide, drive controller of step motor, microscopic photography and observing system, high-resolution optical powermeter, and computer.

Description

The barycenter core regulating method of waveguide-optical fiber automatic butt

Technical field

The present invention relates to being dynamically connected certainly and the barycenter core regulating method of the waveguide-optical fiber automatic butt of encapsulation technology of a kind of integrated optics fiber waveguide device and single-mode fiber, belong to optical communication field.

Background technology

Because fiber waveguide device has that volume is little, functional integration is high, be suitable for advantage such as batch process, in recent years, in the Tbit/s of optic communication link net hypervelocity transmission experiment and Access Network Fiber to the home technology, adopted fiber waveguide device more and more.Lead-in light waveguide device in fiber optic network, at first the problem that must solve is the binding encapsulation of light pricker and optical waveguide.Consider that device inserts the direct influence of loss to network economy, a gordian technique that wherein will solve is that fiber waveguide device docks with the low-loss of optical fiber.Present international advanced index is that every damaged on end consumption is lower than 0.15dB.Reach this index, the mould field distribution that requires on the one hand optical waveguide is consistent with optical fiber as far as possible, necessarily requires the optical axis alignment precision of optical waveguide and optical fiber to be controlled at below the 0.1 μ m on the other hand.Utilize high precision adjusting rack to adopt the conventional manual operation, technical requirement is very high, and particularly after being coupled into 0.3dB, accurately testing as little varying signal of operation criterion is key problem in technology, and corresponding microoperation is very difficult, so efficient is very low, repeatability is very poor.Adopt automatic technology to realize that optical waveguide is docked coupling with high-level efficiency, low-loss between the optical fiber be a kind of effective means, its conventional method is the manually operated process of imitation, and the relative position of finely tuning waveguide optical axis and optical axis by scanning obtains big as far as possible coupling efficiency.The relevant patent of having applied for has: application number 02115963.7 " the automatic aligning and the channel energy equalizing technique thereof of fiber waveguide device and fiber array " reaches, application number 02115964.5 " a kind of fiber waveguide device and self-aligning method of fiber array of being used for ".Conventional accent core process depends on the accurate test to little varying signal, not only requires the guide rail of adjusting bracket that very high traveling precision is arranged, and also requires detector that very high sensitivity is arranged.Generally speaking, owing to precision reason and various stochastic error, usually cause transferring the repeated bad of core.

Summary of the invention

The objective of the invention is to transfer the very poor shortcoming of core repeatability in order to overcome existing conventional, a kind of new automatic core-adjusting method is provided, this method avoids directly seeking peak, the barycenter that adopts measurement to calculate near the coupling efficiency distribution of peak value is determined peak, has overcome conventional accent core process from principle and has depended on the difficulty that little varying signal is accurately tested.

Technical scheme of the present invention is based on following ultimate principle and barycenter core regulating method principle.

Ultimate principle:

What run in the optical communication system is butt joint between single-mode fiber and the single mode bar waveguide device, realizes the transmission of carrier wave on the butt joint end face by the coupling of the power between the eigenmode.In the docking operation, that has filled up refractive index match between waveguide and the optical fiber usually treats cured binders or matching fluid, and end face reflection is very little, can ignore.Show as the overlap integral between the guided mode field distribution on the efficiency theory of therefore this end face coupling.Fig. 1 has provided the analytic model of the end face coupling of single-mode fiber and the waveguide of single mode bar, is without loss of generality, establish optical fiber and bar waveguide in the X-Z face, have one between optical axis angular deviation θ and mould field peak value perpendicular to the deviation x on the Z-direction _o, fiber end face and Waveguide end face are z along the spacing of Z-direction ₁Consider that some unpredictable factors in the optical waveguide manufacturing process cause the asymmetry of field distribution of waveguide, with two different W with a tight waist _Xo1And W _Xo2Characterize the asymmetric field distributions of waveguide single mode.For the convenience on resolving, the field distribution symmetry of establishing wave guide mode on the Y direction, with a tight waist is W _YoThe outgoing light wave of single-mode fiber and the waveguide of single mode bar can be described with Gauss's light wave, and as with reference to face, the field distribution of single-mode fiber emergent light is on this face with Fig. 1 discal patch Waveguide end face (Z=0)

E _f(x′，y，z′)＝u _x(x′，z′)u _y(y，z′)exp(jφ _f(z′))exp(-jkz′)????(1a) $u_x=(x^{\′},z^{\′})=\left[{\sqrt{\frac{2}{\mathrm{\π}}}\frac{1}{W_f\left(z^{\′}\right)}]}^{\frac{1}{2}}\exp \right[-\frac{x^{\′2}}{W_f^2\left(z^{\′}\right)}\left]\exp \right[-j\frac{{\mathrm{kx}}^{\′2}}{2R_f\left(z^{\′}\right)}].....\left(1b\right)$ $u_y(y,z^{\′})={\left[\sqrt{\frac{2}{\mathrm{\π}}}\frac{1}{W_f\left(z^{\′}\right)}\right]}^{\frac{1}{2}}\exp [-\frac{y^2}{W_f^2\left(z^{\′}\right)}]\exp [-j\frac{{\mathrm{ky}}^2}{2R_f\left(z^{\′}\right)}].....\left(1c\right)$ In the formula ${\mathrm{\φ}}_f\left(z^{\′}\right)={\tan }^{-1}\left(\frac{{2z}^{\′}}{{\mathrm{kW}}_{\mathrm{fo}}^2}\right).........\left(2a\right)$ $W_f\left(z^{\′}\right)=W_{\mathrm{fo}}\sqrt{1+{\left(\frac{{2z}^{\′}}{{\mathrm{kW}}_{\mathrm{fo}}^2}\right)}^2}.......\left(2b\right)$ $R_f\left(z^{\′}\right)=z^{\′}[1+{\left(\frac{{\mathrm{kW}}_{\mathrm{fo}}^2}{{2z}^{\′}}\right)}^2].......\left(2c\right)$ Here, W _FoBe the with a tight waist of optical fiber mode, k is the wave number in the medium of light wave between waveguide and optical fiber, and is relevant with the refractive index of medium, reflected the effect of matching fluid.The normalization field distribution of single mode waveguide guided mode on reference surface can be write as

E _g(x，y)＝v _x(x)v _y(y)??????????????????????(3a) $v_x\left(x\right)={\left[\sqrt{\frac{2}{\mathrm{\π}}}\frac{2}{W_{\mathrm{xo}1}+W_{\mathrm{xo}2}}\right]}^{\frac{1}{2}}\exp [-\frac{x^2}{W_x^2\left(x\right)}]......\left(3b\right)$ $v_y\left(y\right)={\left[\sqrt{\frac{2}{\mathrm{\π}}}\frac{1}{W_{\mathrm{yo}}}\right]}^{\frac{1}{2}}\exp [-\frac{y^2}{W_{\mathrm{yo}}^2}]......\left(3c\right)$ In the formula

Usually during alignment function, the angle theta between two optical axises is very little, can do paraxial processing, so two coordinate systems of Fig. 1 have following relation on reference surface

z′＝z ₁+xθ-x _oθ??????????????????????????(5a)

X '=x-x _o-z ₁θ (5b) is paraxial down approximate following formula, and the field distribution of single-mode fiber emergent light also is normalized on reference surface.So the end face coupling efficiency η of waveguide and optical fiber can be expressed as $\mathrm{\η}={\left|{\∫\∫E}_f^{*}(x^{\′}\left(x\right),y,z^{\′}\left(x\right))E_g(x,y)\mathrm{dxdy}\right|}^2......\left(6\right)$ (1) formula and (3) formula substitution following formula, solve

η＝η _x·η _y

(7a) ${\mathrm{\η}}_x=\frac{4\exp [-\frac{2{(z_1\mathrm{\θ}+x_0)}^2}{{W_f}^2\left(z_1\right)}]}{{\mathrm{\πW}}_f\left(z_1\right)(W_{\mathrm{xo}1}+W_{\mathrm{xo}2})}\{{[S_2-S_1+\sqrt{\mathrm{\π}}{A}_1\exp \left(Q_1^2\right)]}^2+{[T_2-T_1+\sqrt{\mathrm{\π}}{B}_1\exp \left(Q_1^2\right)]}^2\}...\left(7b\right)$ ${\mathrm{\η}}_y=\frac{2}{{[{(\frac{W_{\mathrm{fo}}}{W_{\mathrm{yo}}}+\frac{W_{\mathrm{yo}}}{W_{\mathrm{fo}}})}^2+{\left(\frac{{2z}_1}{{\mathrm{kW}}_{\mathrm{fo}}{W}_{\mathrm{yo}}}\right)}^2]}^{\frac{1}{2}}}....\left(7c\right)$ In the formula $S_i=A_i\exp \left(Q_i^2\right)\mathrm{Erfo}\left(Q_i\right)-{\∫}_0^{R_i}\exp \left(t^2\right)[A_i\sin \left(2Q_{i}t\right)+B_i\cos \left(2Q_{i}t\right)]\mathrm{dt}(i=1\mathrm{or}2)....\left(8a\right)$ $T_i=B_i\exp \left(Q_i^2\right)\mathrm{Erfo}\left(Q_i\right)-{\∫}_0^{R_i}\exp \left(t^2\right)[B_i\sin \left(2Q_{i}t\right)-A_i\cos \left(2Q_{i}t\right)]\mathrm{dt}(i=1\mathrm{or}2).....\left(8b\right)$ $A_i=\exp \left({-R}_i^2\right)[M_i\cos \left(2Q_i{R}_i\right)+N_i\sin \left(2Q_i{R}_i\right)](i=1\mathrm{or}2)....\left(8c\right)$ $B_i=\exp \left({-R}_i^2\right)[N_i\cos \left(2Q_i{R}_i\right)-M_i\sin \left(2Q_i{R}_i\right)](i=1\mathrm{or}2).....\left(8d\right)$ $Q_i=\frac{z_1\mathrm{\θ}+x_0}{{W_f}^2\left(z_1\right)}{M}_i+\frac{k}{2}(\frac{z_1\mathrm{\θ}+x_0}{R_f\left(z_1\right)}-\mathrm{\θ})N_i(i=1\mathrm{or}2)...\left(8e\right)$ $R_i=\frac{k}{2}(\frac{z_1\mathrm{\θ}+x_0}{R_f\left(z_1\right)}-\mathrm{\θ})M_i-\frac{z_1\mathrm{\θ}+x_0}{{W_f}^2\left(z_1\right)}{N}_i(i=1\mathrm{or}2)...\left(8f\right)$ $M_i={\left[\frac{\sqrt{{(\frac{1}{W_f^2\left(z_1\right)}+\frac{1}{W_{\mathrm{xoi}}^2})}^2+\frac{k^2}{{4R}_f\left(z_1\right)}}+\frac{1}{W_f^2\left(z_1\right)}+\frac{1}{W_{\mathrm{xoi}}^2}}{2[{(\frac{1}{W_f^2\left(z_1\right)}+\frac{1}{W_{\mathrm{xoi}}^2})}^2+\frac{k^2}{{4R}_f\left(z_1\right)}]}\right]}^{\frac{1}{2}}(i=1\mathrm{or}2)....\left(8g\right)$ $N_i={\left[\frac{\sqrt{{(\frac{1}{W_f^2\left(z_1\right)}+\frac{1}{W_{\mathrm{xoi}}^2})}^2+\frac{k^2}{4R_f\left(z_1\right)}}-\frac{1}{W_f^2\left(z_1\right)}-\frac{1}{W_{\mathrm{xoi}}^2}}{2[{(\frac{1}{W_f^2\left(z_1\right)}+\frac{1}{W_{\mathrm{xoi}}^2})}^2+\frac{k^2}{{4R}_f\left(z_1\right)}]}\right]}^{\frac{1}{2}}(i=1\mathrm{or}2)....\left(8h\right)$ Coupling efficiency η is with θ, Z ₁And x ₀Increase and reduce.As θ, Z ₁And x ₀When being zero, formula (7) becomes $\mathrm{\η}=\frac{2}{W_{\mathrm{fo}}(W_{\mathrm{xo}1}+W_{\mathrm{xo}2})(\frac{W_{\mathrm{fo}}}{W_{\mathrm{yo}}}+\frac{W_{\mathrm{yo}}}{W_{\mathrm{fo}}})}{[\frac{1}{\sqrt{\frac{1}{W_{\mathrm{fo}}^2}+\frac{1}{W_{\mathrm{xo}1}^2}}}+\frac{1}{\sqrt{\frac{1}{W_{\mathrm{fo}}^2}+\frac{1}{W_{\mathrm{xo}2}^2}}}]}^2...\left(9\right)$ Particularly, (W when the mould field distribution of waveguide is symmetry _Xo1=W _Xo2=W _Xo), maximum coupling efficiency is arranged this moment $\mathrm{\η}=\frac{4}{(\frac{W_{\mathrm{fo}}}{W_{\mathrm{xo}}}+\frac{W_{\mathrm{xo}}}{W_{\mathrm{fo}}})(\frac{W_{\mathrm{fo}}}{W_{\mathrm{yo}}}+\frac{W_{\mathrm{yo}}}{W_{\mathrm{fo}}})}.....\left(10\right)$ When waveguide equated fully with the mould field distribution of optical fiber, formula (10) provided end face coupling efficiency η=100%.As seen,, high end face coupling efficiency be obtained, both optical axis alignments must be made as far as possible and keeping parallelism, both end face at interval should be tried one's best little and fill suitable refractive index match medium for given optical waveguide and optical fiber.

Barycenter core regulating method principle:

Generally speaking, because the complicacy of wave guide process technology, the situation such as inhomogeneous of the distortion of waveguide core geometric configuration or index distribution usually can occur, the field distribution of guided mode is asymmetric in this structure.Conventional accent core process is to obtain big as far as possible coupling efficiency by the relative position that scans fine setting waveguide optical axis and optical axis, also comprises therebetween the axle depth of parallelism and end face fine setting at interval.The fine setting at interval of the axle depth of parallelism and end face is related, when between end face very near the time, necessarily require to be close between optical axis parallel, otherwise because end collision in limit causes the fine setting in the X-Y plane not carry out.For the good waveguide chip of end face, this process realizes than being easier under the operation of microimaging recording geometry.When having finished angular setting and make the both ends of the surface close enough, can be similar to and think z ₁=0, θ=0, substitution formula (7) obtains coupling efficiency

η＝η _x·η _y??????????????????(11a) ${\mathrm{\η}}_x=\frac{4\exp [-\frac{{2x}_o^2}{{W_{\mathrm{fo}}}^2}]}{{\mathrm{\πW}}_{\mathrm{fo}}(W_{\mathrm{xo}1}+W_{\mathrm{xo}2})}{\left\{A_1\exp \left(Q_1^2\right)\right[\frac{\sqrt{\mathrm{\π}}}{2}+\mathrm{Erf}\left(Q_1\right)]+A_2\exp \left(Q_2^2\right)[\frac{\sqrt{\mathrm{\π}}}{2}-\mathrm{Erf}\left(Q_2\right)\left]\right\}}^2...\left(11b\right)$ ${\mathrm{\η}}_y=\frac{2}{\frac{W_{\mathrm{fo}}}{W_{\mathrm{yo}}}+\frac{W_{\mathrm{yo}}}{W_{\mathrm{fo}}}}........\left(11c\right)$ In the formula $Q_i=\frac{x_0}{{W_{\mathrm{fo}}}^2}\frac{1}{\sqrt{\frac{1}{W_{\mathrm{fo}}^2}+\frac{1}{W_{\mathrm{xoi}}^2}}}(i=1\mathrm{or}2).....\left(12a\right)$ $A_i=\frac{1}{\sqrt{\frac{1}{W_{\mathrm{fo}}^2}+\frac{1}{W_{\mathrm{xoi}}^2}}}(i=1\mathrm{or}2).....\left(12b\right)$ With scanning position x ₀Be horizontal ordinate, the coupling efficiency distribution curve that is obtained by following formula is shown in Fig. 2.In Fig. 2, defining the asymmetric factor is α=1-(W _Xo1/ W _Xo2), three curves are corresponding α=0,0.2,0.4 respectively, and get the W with a tight waist of conventional single-mode fiber and the waveguide of single mode bar under the 1550nm wavelength _Fo=5.63 μ m, W _Yo=W _Xo2=5.63 μ m.Fig. 2 shows that along with the increase of the asymmetric factor, the coupling efficiency distribution curve presents more significantly asymmetry, and peak and optical axis position are not overlapping.The peak x of coupling efficiency _MaxCan be by η/ x _o=0 calculates.On the other hand, can find that the asymmetry of coupling efficiency distribution curve is having obvious alleviation near near the peak value, however slow near near the curvilinear motion the peak value, the difficulty that still exists small variate to differentiate when transferring core.In order to reduce the influence that small variate test error brings, the numerical value that makes full use of in the computer control automatic core-adjusting process is handled speciality, and we propose centroid method and transfer the core scheme.This scheme avoids directly seeking peak, adopts the barycenter of measuring near the coupling efficiency distribution of calculating peak value to determine peak.If x _O1And x _O2For the peak point both sides have the position coordinates of equivalent coupling efficiency, the centroid position x that coupling efficiency distributes in this interval _AProvide the centroid position x of cloth by following formula _AProvide by following formula $x_A=\frac{\underset{x_{o1}}{\overset{x_{o2}}{\∫}}{x}_o[\mathrm{\η}-\mathrm{\η}\left(x_{o1}\right)]{\mathrm{dx}}_o}{\underset{x_{o1}}{\overset{x_{o2}}{\∫}}[\mathrm{\η}-\mathrm{\η}\left(x_{o1}\right)]{\mathrm{dx}}_o}....\left(13a\right)$

η(x _o1)＝η(x _o2)??????????????????????(13b)

Therefore, centroid position x because the asymmetry of coupling efficiency distribution curve becomes very little near peak value, _AWith peak x _MaxDeviation delta x=x _A-x _MaxWith ratio η (x _O1)/η (x _Max) relevant.If η is (x _O1)/η (x _Max) value get big more, its centroid position x _AWith regard to approaching more desirable peak value, when getting η (x _O1)/η (x _Max)=1 o'clock, Δ x minimum reaches 0.Fig. 3 has provided Δ x and η (x _O1)/η (x _Max) relation curve.

When getting η (x _O1)/η (x _Max) greater than 90% o'clock, deviation delta x in 0.015 μ m, be equivalent to instrument minimum step 0.05 μ m 1/3, do not constituted actual influence.

Based on above-mentioned principle, technical scheme of the present invention is to avoid directly seeking peak, adopts the barycenter of measuring near the coupling efficiency distribution of calculating peak value to determine peak.The barycenter core regulating method of waveguide-optical fiber automatic butt is characterized in, method step be initialization and slightly walk, essence is walked, integration is asked barycenter and repeat above-mentioned steps and carry out the barycenter of another dimension and transfer steps such as core, step is specially:

(1) initialization and slightly walking

At first, comprise and select away axle that selected step pitch is determined trend to each setting value initialization; Slightly walk journey

The axle that preface will be selected whenever moves and moves a step read-out position and luminous power instrumentation with the stride of 0.25 μ m

The luminous power that gets, and store this position and optical power value, walked for 20 steps backward is 5 μ m in the past, looks for

Go out and go to the energy maximum point;

(2) essence is walked

According to the coupling efficiency curve of slightly walking to record, have two of equivalent coupling efficiency at peak point two side-draws

Put coordinate X ₀₁, X ₀₂Corresponding coupling efficiency is peaked 90%; Setting stride is 0.05 μ m,

From X ₀₁The point essence walks to scan X ₀₂Point, and write down the coupling efficiency value of each location point, idiographic flow

For: relatively find X one by one ₀₁Behind the point, whenever move the power that move a step read-out position and light power meter record

And store this position and institute's power scale, walked for 30 steps backward is 1.5 μ m in the past;

(3) ask centroid position

Essence is walked process and has been determined near the curve of peak value, shown in following formula, adopts numerical method to calculate centroid position: $X=\frac{M_y}{M}=\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{s}_i{x}_i}{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{s}_i}=\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{p}_i{x}_i}{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{p}_i}$

In the formula, s _i=p _i* 0.05 μ m, p _iBe coupling efficiency, x _iBe corresponding coordinate; Allow this axle go to this centroid position, promptly finish this accent core; (4) repeat the barycenter accent core that above-mentioned steps is carried out another dimension.

The automatic core-adjusting device that is used for the barycenter core regulating method of above-mentioned waveguide-optical fiber automatic butt, be characterized in that it mainly comprises stabilized voltage supply, high stable light source, the accurate sextuple adjusting gear of two covers, fixing adjustment seat, step motor drive controller, microimaging recording geometry, high resolving power light power meter and the computing machine used of waveguide; On the three-dimensional manual adjustment seat of chip of light waveguide in the middle of being fixed in, be respectively applied for fixedly X-axis, Y-axis, Z axle and the θ of the accurate sextuple adjustment platform of input optical fibre and the output optical fibre left and right sides _zRotating shaft is by step motor drive, and bidimensional is by manual operation in addition.

Through repeatedly transferring the core test findings, to be it overcome conventional accent core process from principle to the effect that obtains depends on the accurate difficulty of test of little varying signal.The present invention has avoided the direct searching to peak owing to adopted the barycenter of measuring near the coupling efficiency distribution of calculating peak value to determine the means of peak, has effectively alleviated the harsh requirement to the precision of testing tool.Another original advantage of the present invention is, all random test errors have been done algebraic mean in the process of calculating centroid position, and the algebraic mean value of stochastic error is very little, therefore the random disturbance of this method in can the filtering test process, the degree of accuracy requirement to the little variable test of signal has been alleviated on certain degree ground.

Description of drawings

Fig. 1 is the analytic model of the end face coupling of single-mode fiber and the waveguide of single mode bar;

Fig. 2 is the coupling efficiency distribution curve of single-mode fiber and the waveguide of asymmetric single mode bar;

Fig. 3 is Δ x and η (x _O1)/η (x _Max) relation curve;

Fig. 4 is a barycenter core regulating method process flow diagram;

Fig. 5 is for slightly walking process flow diagram;

Fig. 6 walks process flow diagram for essence;

Fig. 7 is the system architecture synoptic diagram;

Fig. 8 is the shape of end face angle and drop, the graph of a relation of position.

Embodiment

Barycenter core regulating method flow process:

By after slightly walking scanning and roughly determining the shape and peak point approximate location of curve of output, be the center with the peak point approximate location, on its both sides with η (x _O1)/η (x _Max)=η (x _O2)/η (x _Max)=90% is determined integrating range [x _O1, x _O2].Essence is walked scanning on this interval, and finishes the numerical coordinates integration to output power, and the area that the coordinate integration obtains has been represented the accumulated value of output power in the scanning process.The mass center line position of this area has been reflected through coordinate position that obtain, that can obtain maximum coupling efficiency after the average treatment.This process hockets on X-axis and Y-axis continuously, and can set the scanning times of each in advance.Transfer the idiographic flow of core scheme to be shown in Fig. 4 (for ease of narration, process flow diagram is the accent core process of describing one dimension only).

By shown in Figure 4, the barycenter core regulating method is divided into initialization, slightly walks, essence is walked to ask several stages such as barycenter with integration.The detailed process in each stage is as follows: 1, initialization and slightly walking

Before transferring the core program run, every setting at first is initialised, and comprises selecting away axle, and selected step pitch is determined trend etc.The axle that thick walking program will be selected scans and writes down in the past maximal value backward with the stride of 0.25 μ m.The FB(flow block) of slightly walking as shown in Figure 5.2, essence is walked

According to slightly walk to record the coupling efficiency record, find out 90% zone (X of maximum coupling efficiency ₀₁, X ₀₂).Setting stride is 0.05 μ m, from X ₀₁Point accurately scans X ₀₂Point, and write down the coupling efficiency value of each location point.Process flow diagram as shown in Figure 6.3, ask centroid position

Essence is walked process and has been determined near the curve of peak value, according to formula (13), adopts numerical method to calculate centroid position: $X=\frac{M_y}{M}=\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{s}_i{x}_i}{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{s}_i}=\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{p}_i{x}_i}{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{p}_i}$ In the formula, s _i=p _i* 0.05 μ m, p _iBe coupling efficiency, x _iBe corresponding coordinate.

Specific implementation process of the present invention

Fig. 7 has provided the structured flowchart of implementing automatic core-adjusting of the present invention system, and it comprises that mainly stabilized voltage supply, high stable light source, the accurate sextuple adjusting gear of two covers, waveguide are fixing with adjusting seat, step motor drive controller, microimaging recording geometry, high resolving power light power meter and computing machine.On the three-dimensional manual adjustment seat in the middle of chip of light waveguide is fixed in, the accurate sextuple platform of adjusting of the left and right sides is respectively applied for fixedly input optical fibre and output optical fibre.Accurate sextuple X-axis, Y-axis, Z axle and the θ that adjusts platform _zRotating shaft is by step motor drive, bidimensional manual operation in addition.The minimum value of stepping amount of movement determines that by the number of cutting apart of pulse the smallest partition number is 1/20, and corresponding amount of movement is 0.05 μ m in theory.θ _zSensitivity be 0.0045 the degree, the least count of other diaxon is 34 jiaos of branches.The microimaging recording geometry mainly comprises CCD microscope and micropositioning stage, monitor and the lighting source that two cover orthogonals are settled.System selects high stability communication light source for use, can reach ± short-term stability of 0.005dB/15min and ± the 0.05dB/12h long-term stability.The relative measurement resolution of surveying with light power meter is 0.001dB, has the GP-1B interface function, can be connected with computing machine easily.Order set is taken on by computing machine, transfers the core operation according to the programmed control of establishment, accepts the optical power signals of detector in real time, finishes differentiation, memory and feedback operation in real time.The angular setting of optical axis adopts manual operation, finishes before automatic core-adjusting.Be equipped with the index-matching fluid pearl between two Waveguide end faces, because surface tension effects, the position of matching fluid pearl is relevant with the angle between both ends of the surface, can obtain between good end face parallel by the angle modulation operation under the microimaging observation of orthogonal.Our a large amount of experiments show that this method is simply effective.Between two Waveguide end faces is to control by micro-monitoring, stepper drive at interval, and minimum step is 0.05 μ m.Crowded exhibition state may command by the monitoring matching fluid is at interval before and after 1 μ m.In addition, in order to eliminate the idle running influence of guide rail, transfer the core process to adopt the method for unidirectional traveling.

Embodiment 1:

The automatic core-adjusting of optical fiber-optical fiber and result thereof:

The plane lapping single-mode fiber jumper that has adopted the market sale in the experiment is as standard waveguide.Because the mould field distribution of single-mode fiber is standard very, adopt the coupling test between single-mode fiber can get rid of the influence that waveguide imperfection brings, reflect that objectively the accent core system is soft, the characteristic of hardware.The dry single-mode fiber of two butt faces cleaning is installed on the support of transferring the core instrument, be equipped with the index-matching fluid of trace between two fiber end faces, the refractive index of matching fluid is respectively 1.445 and 1.444 on 1310nm and 1550nm wavelength, with the refringence of silica fibre core less than 0.01, reflection loss is less than-50dB.The transmitance of matching fluid on 1310nm and 1550nm wavelength is respectively 99%/mm and 98%/mm, can ignore the absorption of matching fluid for the end clearance about 1 μ m.Under the monitoring of microimaging recording geometry, the angular setting of optical axis is finished in manual operation.As shown in Figure 8, utilize the surface tension effects of the matching fluid pearl between two Waveguide end faces, position and shape by the microscope camera system of orthogonal observation liquid pearl can obtain between good end face parallel.Between two Waveguide end faces is to control by microscopic observation, stepper drive at interval, and minimum step is 0.05 μ m.Crowded exhibition state may command by the monitoring matching fluid is at interval before and after 10 μ m.Output optical fibre searches out luminous point automatically through the control of the automatic search utility of spiral, realizes logical light between two optical fiber.But the feedback channel between this computer-chronograph and power meter enters running status.Further use the axial traveling of stepping regulating and controlling, the end clearance is reached about 1 μ m.Under above-mentioned state, enter centroid method automatic core-adjusting process.The automatic core-adjusting experiment number of 1310nm and 1550nm wavelength is 9 times, and the time of finishing an automatic core-adjusting process is in 2 minutes.Accent core with this scheme gained the results are shown in table 1.The result shows that the average coupling loss on 1310nm and the 1550nm wavelength is respectively 0.075dB and 0.062dB, and standard error is respectively 0.0099dB and 0.0066dB.Each coupling loss of transferring core has reflected system is soft, hardware is good automatic core-adjusting performance and efficient all less than 0.1dB.

Table 1. is transferred the core test findings.Adopt single-mode fiber as standard waveguide, use wavelength respectively

Be 1310nm and 1550nm.

	End face coupling loss (dB)
			????No.	??λ＝1310nm	??λ＝1550nm
????1	????0.082	????0.068
			????2	????0.082	????0.072
????3	????0.078	????0.058
			????4	????0.078	????0.058
????5	????0.078	????0.058
			????6	????0.082	????0.064
????7	????0.078	????0.064
			????8	????0.061	????0.051
????9	????0.055	????0.068
			Average coupling loss	????0.075	????0.062
Standard error σ n-1	????0.00987	????0.0066

Embodiment 2:

The automatic core-adjusting of optical fiber-waveguide-optical fiber and result thereof:

The silica based SiO that optical waveguide selects for use Japanese NHK company to produce ₂Bury the waveguide of type single mode bar, the design load of the core sectional dimension of waveguide is 8 * 8 μ m ², refractive index contrast Δ=0.3%, both ends of the surface are through plane lapping.Each order mode fiber of input and output side is equipped with index-matching fluid between end face.Coarse adjustment process and above-mentioned optical fiber-optical fiber basic identical, owing at the two ends of bar waveguide a pair of coupling is arranged respectively, initial logical light adjustment adopts the 632.8nm visible light to be easy to judge.After leading to light between optical fiber-waveguide-optical fiber, but the feedback channel between computing machine and power meter enters running status, and will import light and change near infrared light into this moment.The automatic core-adjusting at two ends all adopts centroid method, and 1 time accent core process comprises X-axis and Y-axis.Every end is transferred core twice, and two ends intersect carries out, and the core time accumulative total of accent is no more than 8 minutes.After transferring core to finish, the output terminal single-mode fiber changes multimode optical fiber into, repeats above-mentioned accent core process.Because the core diameter of multimode optical fiber reaches 50 μ m, can be similar to and think that multimode optical fiber has all received the output power of single mode bar waveguide.The decibel difference of the measured value of multimode optical fiber and single-mode fiber is the end face coupling loss of waveguide of single mode bar and single-mode fiber.The automatic core-adjusting experiment number of 1310nm and 1550nm wavelength is 7 times respectively, the results are shown in table 2.The result shows that the coupling loss mean value on 1310nm and the 1550nm wavelength is respectively 0.140dB and 0.109dB, and standard error is respectively 0.0082dB and 0.0107dB.The maximal value of the single coupling loss of 1310nm and 1550nm wavelength is respectively 0.15dB and 0.12dB, shows that this system is realizing that aspect high-level efficiency, the low-loss optical fiber-waveguide automatic butt be highly effective.

The core test findings is transferred in table 2. optical fiber-Waveguide end face coupling.Used optical fiber is plane lapping single mode wire jumper,

Waveguide is the single mode buried type waveguide of silica based SiO2 square shaped core cross section

	End face coupling loss (dB)
			????No.	????λ＝1310nm	????λ＝1550nm
????1	????0.15	????0.11
			????2	????0.14	????0.11
????3	????0.13	????0.12
			????4	????0.13	????0.09
????5	????0.14	????0.11
			????6	????0.15	????0.12
????7	????0.14	????0.10
			Average coupling loss	????0.140	????0.109
Standard error σ n-1	????0.0082	????0.0107

Claims (6)

1, plants the barycenter core regulating method of waveguide-optical fiber automatic butt, it is characterized in that, its step be initialization and slightly walk, essence is walked, integration is asked barycenter and repeat above-mentioned steps and carry out the barycenter of another dimension and transfer steps such as core, step is specially: (1) initialization and slightly walking at first to each setting value initialization, comprise and select away axle, selected step pitch is determined trend; The axle that thick walking program will be selected is with the stride of 0.25 μ m, whenever moves to move a step, and the luminous power that read-out position and light power meter record, and store this position and optical power value is walked i.e. 5 μ m of 20 steps in the past backward, finds out and go to the energy maximum point; (2) essence is walked according to the coupling efficiency curve of slightly walking to record, and has the two positions coordinate X of equivalent coupling efficiency at peak point two side-draws ₀₁, X ₀₂Corresponding coupling efficiency is peaked 90%; Setting stride is 0.05 μ m, from X ₀₁The point essence walks to scan X ₀₂Point, and write down the coupling efficiency value of each location point, idiographic flow is: relatively find X one by one ₀₁Behind the point, whenever move the power that move a step read-out position and light power meter record and store this position and institute's power scale, walk i.e. 1.5 μ m of 30 steps in the past backward; (3) ask the centroid position essence to walk process and determined near the curve of peak value, shown in following formula, adopt numerical method to calculate centroid position: $X=\frac{M_y}{M}=\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{s}_i{x}_i}{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{s}_i}=\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{p}_i{x}_i}{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{p}_i}$ In the formula, s _i=p _i* 0.05 μ m, p _iBe coupling efficiency, x _iBe corresponding coordinate; Allow this axle go to this centroid position, promptly finish this accent core; (4) repeat the barycenter accent core that above-mentioned steps is carried out another dimension.

2, the used automatic core-adjusting device of the barycenter core regulating method of a kind of waveguide-optical fiber automatic butt, it is characterized in that it mainly comprises stabilized voltage supply, high stable light source, the accurate sextuple adjusting gear of two covers, fixing adjustment seat, step motor drive controller, microimaging recording geometry, high resolving power light power meter and the computing machine used of waveguide; On the three-dimensional manual adjustment seat of chip of light waveguide in the middle of being fixed in, be respectively applied for fixedly X-axis, Y-axis, Z axle and the θ of the accurate sextuple adjustment platform of input optical fibre and the output optical fibre left and right sides _zRotating shaft is by step motor drive, and bidimensional is by manual operation in addition.

3, according to the described automatic core-adjusting device of claim 2, the stepping amount of movement that it is characterized in that described X-axis driven by stepper motors, Y-axis, Z axle is cut apart number and is 1-1/20 by counting decision cutting apart of pulse, and corresponding amount of movement is 1-0.05 μ m.

4, automatic core-adjusting device according to claim 2, it is characterized in that described microimaging recording geometry mainly comprises CCD microscope and micropositioning stage, monitor and lighting source that two cover orthogonals are settled, system select for use can reach ± short-term stability of 0.005dB/15min communicates by letter and uses light source with the ± high stability of 0.05dB/12h long-term stability.Detection is connected with computing machine by the GP-IB interface with light power meter.

5, the barycenter core regulating method of waveguide according to claim 1-optical fiber automatic butt is characterized in that, is equipped with the matching fluid pearl of micro-refractive index between described butt joint two Waveguide end faces.

6, the barycenter core regulating method of waveguide according to claim 1-optical fiber automatic butt is characterized in that, described accent core process has adopted the method for unidirectional traveling, to eliminate the idle running influence of guide rail.

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