CN1867843A - Multichannel array waveguide diffraction grating multiplexer/demultiplexer and method of connecting array waveguide and output waveguide - Google Patents

Abstract

An array waveguide diffraction grating type optical multiplexer/demultiplexer comprising an input waveguide, an input-side slab waveguide, an output-side slab waveguide, output waveguides, and array waveguides provided between the input-side slab waveguide and the output-side slab waveguide and having sequentially different lengths between adjacent waveguides, wherein the output waveguides are so disposed that angles formed by respective output waveguides and the normals of Rowland circles of the output waveguides gradually increase from the central output waveguide toward the output waveguides at the opposite ends, thereby decreasing the non-symmetry of the pass band of each output waveguide based on the field distribution shape, at a light converging point, of the output-side slab waveguide.

Description

Multichannel array waveguide diffraction grating multiplexer/demultiplexer and the method that connects Waveguide array and output waveguide

Technical field

The present invention relates to be used in the optical multiplexer/demodulation multiplexer in the optical communication, the method that relates in particular to multichannel array waveguide diffraction grating optical multiplexer/demodulation multiplexer and connect Waveguide array and output waveguide.

Background technology

In optical communication field, thereby a kind ofly used in practice by using high frequency carrier to send the method (wavelength-division multiplex method) that the high capacity signal increases transmission capacity.

In this method, the signal with different wave length is carried out multiplexing reconciliation operate the optical multiplexer/demodulation multiplexer of usefulness again and played the part of important role.

Particularly, the array waveguide diffraction grating optical multiplexer/demodulation multiplexer of use array waveguide diffraction grating (AWG) for multiplexing a large amount of path of great use.No matter how many path numbers is, can create out the path number of expectation in the step of identical process and similar number, and in theory, loss and mis-behave is all very little.

When connecting array waveguide diffraction grating (AWG) with the time, require the coupling loss minimum as the optical fiber of output waveguide.

For example, publication number is the example that the Japanese patent application of 11-271557 has proposed a kind of coupling mechanism, this coupling mechanism comprises M road first waveguide wire array and the N road second waveguide wire array, and has a pair of end portion, an end portion is connected on the arched planes waveguide wire, it is centered close to the centre of another end portion, and wherein the N road second waveguide wire array is radial arrangement towards periphery from this arc central point, and this is arc then to be positioned near the center of end portion of the first waveguide wire array.

But, usually all know, if multichannel (N road) waveguide (waveguide wire) is arranged on the circumference of Rowland circle (this Rowland circle is to draw on the surface of arc diffraction grating) and contacts intermediate point, the transport property aspect that then is positioned near the waveguide the center of N road waveguide (waveguide wire) and is positioned at the waveguide (waveguide wire) that end (two ends) locates, asymmetric is different.

If passband wide aspect the asymmetric of transport property be different, then PDL can worsen (the poorest PDL value increase) partly.In addition, in the Waveguide array with flat-top transport property, the ripple during passband is wide is increasing.

In patent documentation 1, do not provide solution to the problems described above.

Summary of the invention

The objective of the invention is to, reduce the junction loss that in array waveguide diffraction grating (AWG), causes, thereby obtain the very little composition/resolution characteristic of loss by the mode mismatch between second slab guide and the output waveguide.

The invention provides a kind of multichannel array waveguide diffraction grating multiplexer/demultiplexer, it comprises:

Waveguide array, it has the covering that is placed on the fibre core on the substrate and is used for covering fibre core, and each Waveguide array all has predetermined curvature;

The slab guide of input side, it is placed on the substrate and by input waveguide light signal is input in the Waveguide array; And

The slab guide of outgoing side, it outputs to light signal in the output waveguide from Waveguide array,

Wherein output waveguide has predetermined shape, meeting the shape in ray-collecting point place's field distribution of the slab guide of outgoing side, and is connected to the slab guide of outgoing side.

That is, in above-mentioned multichannel array waveguide diffraction grating multiplexer/demultiplexer, output waveguide has predetermined shape, change this shape meeting the shape of ray-collecting point place's field distribution in the output plane waveguide, and output waveguide links to each other with the output plane waveguide.Therefore, junction loss has reduced, and the asymmetry of transport property has reduced.

In addition, the invention provides a kind of multichannel array waveguide diffraction grating multiplexer/demultiplexer, it comprises:

Waveguide array, it is positioned at preposition place on the substrate;

Slab guide, it is positioned at the outgoing side of Waveguide array; And

Output waveguide, it links to each other with slab guide and has the surface that is connected that forms Rowland circle, it also comprises many fibre cores, the fibre core of position according to central core from central core to two ends, the angle that forms with the normal of Rowland circle is defined as α, 2 α, 3 α successively ... (N-1) α, N α, wherein the angle between the normal of the center line of the fibre core of the both sides of the fibre core of center and Rowland circle is assumed that α.

Promptly, in above-mentioned multichannel array waveguide diffraction grating multiplexer/demultiplexer, normal and the angle between the center line of the fibre core of central core both sides of supposing Rowland circle are α, angle between the normal of detailed description Rowland circle and the center line of fibre core, be used to expect that number of vias purpose fibre core is connected to the outgoing side slab guide, be defined as α, 2 α, 3 α successively according to the formed angle of the fibre core from the central core to both sides, position of central core ... (N-1) α, N α.The field distribution at the ray-collecting point place of slab guide becomes just the same with the field distribution of output waveguide.Therefore, when the multichannel light wave was cut apart, junction loss had diminished, and the output uniformity on each road has increased.

The present invention also provides a kind of method that output waveguide is connected with slab guide of being used for, output waveguide links to each other with slab guide, slab guide is positioned at the outgoing side of Waveguide array, Waveguide array is positioned at preposition on the substrate, the method is characterized in that, the fibre core of desired number is connected to each output terminal of slab guide, be defined as α successively according to the formed angle of the fibre core from central core to two ends, the position of central core on the Rowland circle circumference, 2 α, 3 α ... (N-1) α, N α, wherein and the angle that forms of the normal of Rowland circle be the angle that between the normal of the center line of the fibre core at the place, both sides of central core and Rowland circle, forms, and be assumed that α.

Promptly, in said method, the output waveguide of desired number is used to multichannel and many fibre cores, change of the field distribution of these fibre cores, be defined as α, 2 α, 3 α according to the formed angle of the fibre core from the central core to both sides, the position of central core on the Rowland circle circumference with the ray-collecting point place that meets slab guide ... (N-1) α, N α.Therefore, junction loss has reduced, and the output uniformity of each path has increased.

Description of drawings

Fig. 1 has explained the synoptic diagram of an example of array waveguide diffraction grating optical multiplexer/demodulation multiplexer according to an embodiment of the invention;

Fig. 2 is the synoptic diagram of topology example of having explained the necessary parts of Waveguide array shown in Figure 1;

Fig. 3 is the synoptic diagram of topology example of having explained the necessary parts of Waveguide array shown in Figure 1;

Fig. 4 is the synoptic diagram of topology example of having explained the necessary parts of Waveguide array shown in Figure 1;

Fig. 5 shows transport property of the present invention when having used the slab guide that Fig. 2 to 4 explained to be connected with output waveguide;

Fig. 6 shows has the transport property of the flat-top Waveguide array of flat transport property when having used the slab guide that Fig. 2 to 4 explained to be connected with output waveguide;

Fig. 7 shows a wavelength (path) that has extracted from transport property of the present invention when having used being connected of the slab guide that Fig. 2 to 4 explained and output waveguide; And

Fig. 8 shows a wavelength (path) that has extracted from transport property of the present invention when having used being connected of the slab guide that Fig. 2 to 4 explained and output waveguide.

Embodiment

To explain embodiments of the invention in detail with reference to the accompanying drawings.

As shown in Figure 1, Waveguide array optical multiplexer/demodulation multiplexer 10 has input waveguide 12, Waveguide array 13 and output waveguide 14, they all are positioned at preposition on the substrate 11, and first and second slab guides 15 are connected input waveguide 12 and Waveguide array 13 and Waveguide array 13 and output waveguide 14 in the mode of optics separately with 16.

Waveguide array 13 is formed between first and second slab guides 15 and 16, and has predetermined curvature.

As shown in Figure 2, the position of on the circumference of the Rowland circle of the output terminal that is used to define second waveguide 16, expecting, the fibre core 14-n of output waveguide 14 is connected to the output terminal 16-n and the 16n of second slab guide to 14n (except that fibre core 14o), and wherein central shaft is against the predetermined angle of the normal slope one of Rowland circle.

Particularly, the normal of central core 14o and Rowland circle is connected to output terminal 16o perpendicularly.Therefore, the center line of output terminal 16o and central core 14o is aligned on the identical straight line.

Be connected to output terminal 16-n is connected to second slab guide 16 to 14n (except that 14o) to the fibre core 14-n of 16n (the output terminal 16o on center line) precalculated position, so that center line is when separating with the fibre core 14o of center, will become big against the angle of the normal of Rowland circle.

That is, fibre core 14-n that links to each other with the two end portions of second slab guide 16 and 14n are connected in second slab guide 16, so that (n) become maximum against the angle α * n of the normal of center line.The fibre core 14-1 and 141 (simply illustrating) that is positioned at central core 14o both sides links to each other with second slab guide 16, so that (n) becomes minimum against the angle α * n of the normal of center line.The angle α that forms between the center line of each fibre core and the normal of Rowland circle is defined within the side of central core 14o.Therefore, about the fibre core 14-n of an end and the fibre core 14n of the other end, the angle N α that forms between the normal of center line and Rowland circle equates aspect big or small but polarity (direction) is opposite.

More particularly, angle α * n that fibre core 14-n forms between the normal of the center line of 14n (except that the 14o at center) and Rowland circle (n) be configured to reduce below two distances and between the influence of difference, distance and be distance and (optical path length of light path is marked as zero) of walking from the two ends of the input side of slab guide 16 by the two-beam line that collect the outgoing side center, another distance and be distance and (optical path length of light path is marked as Δ and II) of walking at the outgoing side two ends by the two-beam line of from an end of the input side of slab guide 16, collecting, when light as shown in Figure 2 when second slab guide 16 is input to the Waveguide array 13, above-mentioned difference is the optical path length with the longest light path and has difference between the optical path length of the shortest optical path.In this case, suppose that the angle between the normal of the center line of the fibre core of central core 14o both sides and Rowland circle is α, position according to central core 14o, towards the fibre core at central core two ends, be easy to be defined as α, 2 α, 3 α to the angle that forms between the normal of the center line of 15n and Rowland circle at fibre core 14-n ... (N-1) α, N α.As mentioned above, the fibre core at fibre core that is arranged in any desired position of a side and opposite side same position place, the angle that forms between the normal of center line and Rowland circle equates aspect big or small, but polarity (direction) is opposite.

By connecting the fibre core that links to each other with the output terminal of (output) slab guide, be connected to the outgoing side of Waveguide array thereby this slab guide is the angle that forms by the normal that changes according to the distance from the center of slab guide with Rowland circle as described above, can prevent the asymmetric increase of the wide transport property of passband.That is, can reduce subsequently to worsen (increase of the poorest PDL value) with reference to the local PDL that Fig. 7 makes an explanation.Also can reduce the passband that takes place in the Waveguide array that has the defeated characteristic of flating pass the usually ripple in wide, this can make an explanation with reference to Fig. 8 hereinafter.

In the present invention, prevent that the asymmetric principle that increases the wide middle transport property of passband from being:

A) consider field distribution, be difficult to eliminate fully optical path length and have difference between the optical path length of the shortest optical path with the longest light path at the ray-collecting point place of second (outgoing side) slab guide.As a result, the deterioration that can estimate at the symmetry of limit distribution is reducing, and

B) influence that connects from the caused mismatch of the distance at the center of each fibre core that is connected to second slab guide (element of output waveguide).

In other words, according to the present invention who explains above, can consider, by with fibre core 14-n to 14n (except that 14o, link to each other with 16n with the output terminal 16-n except that output terminal 16o) be connected to the precalculated position of second slab guide 16, so that center line is when separating with central core 14o, the angle that forms with the normal of Rowland circle increases,, transport property just can be matched with the field distribution shape at the ray-collecting point place of second (outgoing side) slab guide.

In above-mentioned Waveguide array optical multiplexer/demodulation multiplexer 10, be imported in the input waveguide 12 from a plurality of light signals of SMF (single-mode fiber) (not mentioned) with reference to Fig. 1.On the other hand, separated light signal is output to from output waveguide 14 in the single-mode fiber (SMF), and this single-mode fiber is connected to the outgoing side of Waveguide array optical multiplexer/demodulation multiplexer 10, and this point is not explained in detail.Be input to light signal in the output waveguide 14 yes and have predetermined wavelength output at interval, it is separated from first slab guide 15, Waveguide array 13 and second slab guide 16 by input waveguide 12.In this case, because of the reason that Fig. 2 explained, output waveguide 14 and second slab guide 16 between junction loss (coupling loss) diminished.

In addition, reduce (worst-case value of PDL is increasing) by the caused known PDL of transport property difference between the central core of output waveguide 14 (linking to each other) and two ends fibre core and reach minimum with second slab guide 16.Ripple increase with flat-top output waveguide of the defeated characteristic of flating pass has been reduced.

Fig. 3 has explained another embodiment, and it has connected outgoing side slab guide and the output waveguide of having explained with reference to Fig. 2.The assembly identical with Fig. 1 and 2 is denoted by the same reference numerals, and explanation will be omitted in detail.

In Waveguide array refraction raster multiplexer/demodulation multiplexer shown in Figure 3, the position of on the circumference of the Rowland circle of the output terminal that is used to define second slab guide 16, expecting, the fibre core of the desired number in the output waveguide 114 except that central core 114o is connected to the output terminal 16-n and the 16n of second slab guide 16, wherein central shaft against the normal slope of Rowland circle predetermined angle α * n (n).(this is identical with example shown in Figure 2).

In the coupling part of each the fibre core 114-n that links to each other with slab guide 16 to 114n, form a taper, the diameter of section of its slab guide one side is defined very greatly.Formed taper is for being asymmetric for the normal of the circumference of the Rowland circle the central core 114o.Along with the increase of the distance of decentering fibre core 114o, the taper in each fibre core except that central core 114o is defined as increasing opposite with central core 114o (relevant with the normal of Rowland circle) that part of.

That is, with the normal of center line as a reference, be connected to the taper that the fibre core 114-n and the 114n at the two ends of second slab guide 16 had and be defined as making the part maximum opposite with central core.(simply illustrate for fibre core 114-1 and fibre core 1141, and be arranged in the both sides of central core 114o) taper form very greatly in the part opposite with central core, be minimum but compare its size (size of asymmetric part) with the size of the asymmetric part of the taper of other fibre core.

Fig. 4 has explained another embodiment, and it has connected outgoing side slab guide and the output waveguide of having explained with reference to Fig. 2.Represent with identical label with assembly identical among Fig. 1 to 3, and explanation will be omitted in detail.

In Waveguide array refraction raster multiplexer/demodulation multiplexer shown in Figure 4, the position of on the circumference of the Rowland circle of the output terminal that is used to define second slab guide 16, expecting, the fibre core of the desired number in the output waveguide 214 except that central core 214o is connected to the output terminal 16-n and the 16n of second slab guide 16, wherein central shaft against the normal slope of Rowland circle predetermined angle α * n (n).(this is identical with example shown in Figure 2).

Each the fibre core 214-n that is connected to slab guide 16 has formed parabola shaped to the coupling part of 214n, the diameter of section of its slab guide one side is defined very greatly.For for the normal of the circumference of the Rowland circle the central core 214o, formed parabolic type partly is asymmetric.Along with the distance of decentering fibre core 214o is increasing, the parabolic type in each fibre core except that central core 214o partly is defined as that part of opposite with central core 214o (relevant with the normal of Rowland circle) of increase.

That is, can be substituted by taper shown in Figure 3 with reference to the parabolic type coupling part that Fig. 4 explained.

By connecting the fibre core that links to each other with the output terminal of slab guide (it links to each other (output) with the outgoing side of Waveguide array), by the angle of basis from distance change with the normal formation of Rowland circle at the center of slab guide, and, just can prevent the wide increase of passband in the transport property by asymmetric taper or Parabolic coupling part (increasing this coupling part in part opposite with central core for normal) are provided.That is, local PDL worsens (the poorest PDL value is increasing) and has reduced, and this can explain with reference to Fig. 7 hereinafter.Reduced having the flat pass scale of the passband that produced in the Waveguide array of the defeated characteristic ripple in wide of generality, this can explain with reference to Fig. 8 hereinafter.

Fig. 5 shows transport property of the present invention when using with reference to being connected of output waveguide that Fig. 2 to 4 explained and slab guide.Fig. 5 shows the example of the Gaussian distribution with transport property.

In Fig. 5, o compares with center channel, and in the path-n and n at two ends, the extent of deterioration of light signal (wavelength X 1 to λ n is used to passage-n to n) improves, compare with the known example that is connected of use that dotted line is represented, the difference at center and two ends is reducing.That is, when the present invention represents with A and comparative example when representing with B, become A＜B as the homogeneity of the difference between center and the two ends, and homogeneity is improved by the present invention.

Fig. 6 shows the transport property that is obtained when flating pass the flat-top Waveguide array of defeated characteristic when slab guide of explaining with reference to Fig. 2 to 4 and being connected of output waveguide being applied to having.

In Fig. 6, o compares with center channel, and in the path-n and n at two ends, the extent of deterioration of light signal (wavelength X 1 to λ n is used to path-n to n) improves, compare with the known example that is connected of use that dotted line is represented, the difference at center and two ends is reducing.That is, when the present invention's usefulness aRepresent and comparative example usefulness bWhen representing, become as the homogeneity of the difference between center and the two ends a＜ b, and homogeneity is improved by the present invention.

Fig. 7 shows transport property of the present invention when using being connected of the slab guide explained with reference to Fig. 2 to 4 and output waveguide, and one of them optional wavelength (passage) is extracted out.Fig. 7 is corresponding to Fig. 5, and shows an example of the Gaussian distribution with transport property.As in Fig. 5, mark A is used for the present invention, and mark B is used for comparative example.

As can be seen from Figure 7, the dislocation of centre wavelength normally equates, and PDLA＜PDLB, even PD λ A=PD λ is B.PDLA＜PDLB represents that when the width of passband was controlled (definition) by the poorest PDL value, the width of passband was by broadening.In addition, this result does not rely on pattern, and equates in TM mould and TE mould.

More particularly, by | A-B| can determine that in Gauss's array waveguide diffraction grating optical multiplexer/demodulation multiplexer of 40 tunnel, maximum insertion has improved 0.7dB, and levels of crosstalk has been improved 5dB.In addition, can determine that asymmetric in each road is improved.

Fig. 8 shows the transport property that is obtained when flating pass the flat-top array waveguide diffraction grating optical multiplexer of defeated characteristic/demodulation multiplexer when slab guide of explaining with reference to Fig. 2 to 4 and being connected of output waveguide being applied to having, and one of them optional wavelength (path) is extracted out.Fig. 8 is corresponding to Fig. 6, and shows an example with flat-top transport property.As in Fig. 6, mark a is used for the present invention, and b is used for comparative example.

As can be seen from Figure 8, the dislocation of centre wavelength is equal usually, even and PD λ a=PD λ b, PDLa＜PDLb.PDLA＜PDLB is identical with Fig. 7, and is used to control the width of passband.In addition, this result does not also rely on pattern, and equates in TM mould and TE mould.

About the peculiar ripple of flat-top array waveguide diffraction grating optical multiplexer/demodulation multiplexer, ripple a＜ripple b, and can determine that the scale of ripple is controlled.

More particularly, by | A-B| can determine that in Gauss's array waveguide diffraction grating optical multiplexer/demodulation multiplexer of 40 tunnel, maximum insertion has improved 0.7dB, and levels of crosstalk has been improved 5dB.In addition, can determine that asymmetric in each road is improved.

As mentioned above, when in array waveguide diffraction grating optical multiplexer/demodulation multiplexer, connecting the output waveguide path of outgoing side slab guide and desired number, the output waveguide that is used for each path by connection, change the angle that forms with the normal of Rowland circle according to distance from the slab guide center, just can control passband wide in the asymmetric increase of transport property.

When the end of output waveguide was shaped to taper or parabolic type at that part of place that is connected to slab guide, this taper or parabolic type part can be asymmetric, and that part of size outside this center can be bigger.

As mentioned above, according to the present invention, in array waveguide diffraction grating (AWG) optical multiplexer/demodulation multiplexer, reduced by the caused junction loss of pattern of mismatch between second waveguide and the output waveguide, and passband wide in pairing asymmetric being controlled in center of transport property.

Therefore, signal waveform is uniformly, and bandwidth improves so that can guarantee the PDL of predetermine level.

The present invention is not limited to described these embodiment.The present invention can implement with other particular form under the situation that does not deviate from its spirit or essential characteristic, or obtains revising.Each embodiment appropriate combination as much as possible gets up.Like this, will obtain combined effect.

Commercial Application

According to the present invention, the asymmetric increase of the transmission characteristic during passband is wide is controlled, and can obtain Must between output waveguide and slab guide, have the array waveguide diffraction grating optical multiplexer of little junction loss/ Demodulation multiplexer.

According to the present invention, can obtain to have low array waveguide diffraction grating optical multiplexer/demultiplexing of crosstalking Device.

In addition, signal waveform is uniformly, and bandwidth improves so that can guarantee predetermine level PDL.

Claims (11)

1. multichannel array waveguide diffraction grating multiplexer/demultiplexer, it comprises:

Waveguide array, it has the covering that is placed on the fibre core on the substrate and covers described fibre core, and each Waveguide array all has predetermined curvature;

The input side slab guide, it is placed on the substrate and will be input in the described Waveguide array by the light signal that input waveguide is imported; And

The outgoing side slab guide, the light signal that it will be exported from described Waveguide array outputs in the output waveguide,

Wherein said output waveguide has predetermined shape, changes the field distribution shape of its shape with the ray-collecting point place that meets described outgoing side slab guide, and is connected to described outgoing side slab guide.

2. multichannel array waveguide diffraction grating multiplexer/demultiplexer as claimed in claim 1, it is characterized in that, a plurality of output waveguides be arranged in described outgoing side slab guide peculiar arc on, and when linking to each other with described outgoing side slab guide, along with from the distance of arc center output waveguide for the output waveguide of the arc center of described output waveguide in continuous increase, the angle that forms between the center of described output waveguide and described arc normal constantly increases on predetermined direction.

3. multichannel array waveguide diffraction grating multiplexer/demultiplexer as claimed in claim 2 is characterized in that, on the direction of the output waveguide that is positioned at described center, the angle between the center of described output waveguide and described arc normal is in continuous increase.

4. as claim 2 or 3 described multichannel array waveguide diffraction grating multiplexer/demultiplexers, it is characterized in that, at the angle that forms between the center of described output waveguide and the described arc normal is the output waveguide in described center, the angle that forms between the output waveguide of both sides and described arc normal, described angle direct ratio increase in from described center to the distance of the output waveguide of expectation.

5. multichannel array waveguide diffraction grating multiplexer/demultiplexer as claimed in claim 1, it is characterized in that, a plurality of output waveguides be arranged in described outgoing side slab guide peculiar arc on, and when described outgoing side slab guide is connected to described outgoing side slab guide by taper or parabola shaped link, along with from the distance of arc center output waveguide for the output waveguide of the arc center of described output waveguide in continuous increase, the asymmetric part of described taper or parabola shaped link is in continuous increase.

6. multichannel array waveguide diffraction grating multiplexer/demultiplexer as claimed in claim 5, it is characterized in that, on the direction opposite with the output waveguide that is positioned at described center, the size of the asymmetric part of described taper or parabola shaped link is in continuous increase.

7. multichannel array waveguide diffraction grating multiplexer/demultiplexer, it comprises:

Be positioned at the Waveguide array of pre-position on the substrate;

Be positioned at the slab guide of described Waveguide array outgoing side; And

The output waveguide that links to each other with described slab guide, it has the connection surface that is used to form Rowland circle, and comprise fibre core with the angle that forms with the normal of described Rowland circle, position according to central core, described angle is defined as α, 2 α, 3 α successively on the direction from described central core to the two ends fibre core ... (N-1) α, N α, wherein the angle that forms between the normal of the center line of the fibre core of described central core both sides and described Rowland circle is assumed that α.

8. multichannel array waveguide diffraction grating multiplexer/demultiplexer as claimed in claim 7, it is characterized in that the angle that forms is constantly increasing on the direction at described center between the normal of the center of other fibre core except that the central core of described output waveguide and described Rowland circle.

9. multichannel array waveguide diffraction grating multiplexer/demultiplexer as claimed in claim 8, it is characterized in that, each fibre core in the described output waveguide all has taper or the parabola shaped link that forms in that side that is connected to described slab guide, each coupling part comprises asymmetric zone, along with the increase from the distance of described central core, described asymmetric zone increases in a side opposite with the center of the fibre core of described center.

10. method that output waveguide is linked to each other with slab guide, described output waveguide is connected to the described slab guide that is positioned at the Waveguide array outgoing side, described Waveguide array is positioned at the bottom preposition, described method is characterised in that, position according to central core on the Rowland circle circumference, on the direction from described central core to the two ends fibre core, the fibre core of desired number is with α, 2 α, 3 α ... (N-1) α, the defined angle of N α is connected to each output terminal of described slab guide, wherein and the angle that forms of the normal of described Rowland circle be the angle that between the normal of the center line of the fibre core of described central core both sides and described Rowland circle, forms, and be assumed that α.

11. the method that output waveguide is linked to each other with slab guide as claimed in claim 10, be connected to the described slab guide that is positioned at the Waveguide array outgoing side in output waveguide described in the described method, described Waveguide array is positioned at the bottom preposition, described method is characterised in that, each fibre core has at taper that is connected to that side formation of described slab guide or parabola shaped join domain, and each join domain comprises asymmetric zone, along with the increase from the distance of described central core, described asymmetric zone increases in a side opposite with the center of the fibre core of described center.

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