CN1687808A - Air conducting double-core photon band gap optical fiber - Google Patents

Abstract

This invention relates to a kind of fiber with air gaps which uses the air to conduct, especially about photon fiber with air gaps with two defective cores. It can realize the functions of separating the wave length and excursion more easily. The cladding of this kind of air-conducting two-core photon fiber with air gaps is made up of the air gaps which are arranged in the way of triangle grids, and by forming two bigger air gaps in the core area we can get two defective cores. Using the photon with air gaps effect formed by the index of refraction periodic distributing in the cladding, we can conduct the light in the two cores with almost the same low index of refraction and can get the coupling phenomenon in the two cores. This kind of fiber can have no coupling lightlength, so we can more easily realize the functions of separating the wave length and excursion. What's more, this kind of fiber can be used in the direction coupler with conduction of high power.

Description

Air conducting double-core photon band gap optical fiber

Technical field

The present invention relates to a kind of band gap fiber that utilizes air transmitted, particularly include the photon band-gap optical fiber of two defective fibre cores, can easier realization wavelength and the separation function of polarization.In addition, this air conducting double-core photon band gap optical fiber can also be applied to the directional coupler of high power conduction.

Background technology

Photonic crystal fiber owing to flexible design, can have the irrealizable character of many ordinary optic fibres and be subjected to extensive concern.Photonic crystal fiber has two kinds of transmission mechanisms: refractive index conduction and photon band gap conduction.Wherein the photonic crystal fiber based on photon band gap conduction is known as photon band-gap optical fiber again, and refractive index has period profile in the covering of this optical fiber, thereby forms photon band gap, and promptly the light that drops in the photon band gap of frequency can not be propagated in covering.Defective that introduce to destroy periodic structure in this cladding structure is as fibre core, just can constrain in the fibre core and conducts dropping on light in the band gap frequency range.With different based on the photonic crystal fiber and the ordinary optic fibre of refractive index conduction, the transmission mechanism of photon band-gap optical fiber and the refractive index of fibre core are irrelevant, so the fibre core of this optical fiber can be the material lower than cladding-effective-index, or even air.The photon band-gap optical fiber of single air-core conduction was made (Science as far back as 1999 by people such as R.F.Cregan, 285,1573,1999), common this optical fiber by quartz as base material, introduce in the covering and press the airport that the triangle rule is arranged, the center forms the defective fibre core by introducing a bigger airport, and this structure is constant along fiber length.Because in the photon band-gap optical fiber of air transmitted, light field mainly is distributed in the air-core, reduced the absorption effect of silica glass material, therefore this optical fiber is potential is used for the ultra-low loss conduction, also avoided simultaneously when carrying out high power transmission nonlinear effect and to the destruction of base material.Present this optical fiber has been applied to aspects such as high power light transmission, gas are non-linear, microscopic particle conduction.

The manufacturing process of photonic crystal fiber normally is piled into prefabricated rods to hollow glass capillary and solid glass rod by a fixed structure, is drawn into optical fiber then in the fibre-optical drawing tower.Because the number of kapillary and glass bar and arrangement mode can flexible design in the manufacturing process of prefabricated rods, so the realization of multicore photonic crystal fiber is relatively easy.Based on the related device of multicore refractive-index-guiding type photonic crystal fiber directional coupler by extensive studies, people such as B.J.Mangan existed in 2000 " Experimental study of dual-core photonic crystal fibre ", Electron.Lett.36,1358-1359 has drawn twin-core refractive index light conducting photonic crystal fiber the earliest and the coupled characteristic of this optical fiber has been studied in (2000).People such as L.Zhang exist " Polarization splitter based on photonic crystalfibers ", Optics express, 11, utilize the high birefringence double-core photonic crystal fiber to realize the polarization separator function among the 1015-1020 (2003), and in Chinese patent (application number 03100608.6), announced related content.People such as K.Saitoh is at " Coupling characteristics of dual-core photonic crystal fiber couplers " in addition, Optics Express, 11, designed multiplexing-demodulation multiplexer among the 3188-3195 (2003) based on the double-core photonic crystal fiber coupling mechanism, people such as J.Legsgaard are at " Photonic crystal fiber design for broadband directionalcoupling ", Optics Leters, 29, utilize the doping double-core photonic crystal fiber to design directional coupler among the 2473-2475 (2004) with utmost point wide frequency ranges.The dirigibility that these researchs and application have demonstrated fully the photonic crystal fiber design with and the control ability to light stronger than ordinary optic fibre.Yet these researchs all are based on refractive index conduction type photonic crystal fiber, and for photon band-gap optical fiber, except the advantage with refractive index conduction type photonic crystal fiber, also have some special good characteristics that photonic band gap effects is brought simultaneously.In known photon band-gap optical fiber design, at present still not about the research of twin-core photon band-gap optical fiber and the patent report of design proposal.

Summary of the invention

The purpose of this invention is to provide the air conducting double-core photon band gap optical fiber that can be used for high power and can in short distance, realize wavelength or polarization separation.

Technical scheme of the present invention: comprise two defective fibre cores and a cladding regions that has airport, covering is by constituting by the airport on the regular grid node on the base material, two defective fibre cores are positioned at cladding center, be two airport defectives bigger than covering airport, xsect is a hexagon, and is constant along the length direction of optical fiber.

In this structure, when photonic crystal covering airport is enough big, in covering photonic band gap effects will appear.So-called photon band gap is meant in refractive index and is in the structured material of periodic distribution that photon can have the band gap as the electronics in the semiconductor, and promptly the light of some frequency can not conduct in structure.This cycle material with photon band gap is called as photonic crystal, when introduce destroying the defective of periodic structure in photonic crystal, can form near the defect mode that is confined to the defective in photon band gap.The leaded light mechanism of photon band-gap optical fiber can be used above-mentioned theoretical explanation, by introduce the fibre core defective in the 2 D photon crystal covering, light is confined to conduct in the fibre core.Because its transmission mechanism and total internal reflection are irrelevant, fiber core refractive index is not required, therefore in this optical fiber, light can conduct in air-core.

The principle of work of Twin-Core Fiber Coupler can utilize the interference of hyper mode to explain usually.When light during from fibre core incident of twin-core fiber, in optical fiber, evoke idol, strange two hyper modes simultaneously, they are even symmetry or odd symmetry based on axis of symmetry vertical with two fibre core line directions in the optical fiber structure respectively.Usually, even pattern is different with the propagation constant of strange pattern, and therefore under two patterns were interfered, the energy of light shifted along spread fiber direction cycle between two fibre cores.The distance definition that energy is propagated optical fiber when a fibre core is transferred to another fibre core fully is a coupling length:

$L_c^{\mathrm{\σ}}=\frac{\mathrm{\π}}{|{\mathrm{\β}}_e^{\mathrm{\σ}}-{\mathrm{\β}}_o^{\mathrm{\σ}}|}---(\mathrm{\σ}=x,y)$

L wherein _c ^xAnd L _c ^yThe coupling length of expression x and y polarization direction, β _e ^xAnd β _e ^yBe the propagation constant of the even pattern of x direction and y direction polarization, β _o ^xAnd β _o ^yIt is the propagation constant of the strange pattern of x direction and y direction polarization.Coupling length is short more, shows that the coupling between the twin-core is strong more.The output power of two fibre cores of fiber coupler and the ratio of general power are by coupling length L _cLength L with coupling regime in the fiber coupler _dDecision is with the ratio P of incident fibre core energy in output terminal output energy accounts for ₁/ P _Tot=cos ²(π L _d/ 2L _c).

Twin-core air transmitted photon band-gap optical fiber of the present invention has the 2 D photon crystal cladding structure of triangular lattice periodic arrangement airport, and the cladding center zone exists two airports bigger than covering airport to form the defective fibre core.Mould field between the basic mode of propagating in two fibre cores overlaps, and occurs above-mentioned even, strange two kinds of hyper modes, and energy is changed between two fibre cores, the function of realization fiber coupler.Simultaneously, because the introducing of two fibre cores has destroyed the original symmetry of single-core fiber, therefore in twin-core fiber, also there are birefringent phenomenon, the optically-coupled length difference of different polarization direction.

Beneficial effect of the present invention:

Based on twin-core air transmitted photon band-gap optical fiber structure disclosed by the invention, can obtain to have the photon band-gap optical fiber of shorter coupling length.Because in optical fiber disclosed by the invention, the coupling length of different polarization direction has bigger difference, therefore this optical fiber also can be used for polarization separator.Especially, in this optical fiber, coupled wavelength can occur not having, promptly at this wavelength, even pattern has identical propagation constant with strange pattern, does not exist energy to shift between two fibre cores.This phenomenon is to be difficult to realize at the waveguide coupler of refractive index conduction.Utilize no coupled wavelength, can more easily design and realize the separation function of wavelength or polarization.

Description of drawings

Fig. 1 is a cross section of optic fibre structure of the present invention.

Fig. 2 is that the effective refractive index of conduction mode in the optical fiber structure 1 of the present invention is with the normalization wavelength variations.

Fig. 3 be in the optical fiber structure 1 of the present invention the normalization coupling length with wavelength change.

Fig. 4 is based on 1.55 mu m polarized separation vessel incident fibre core output terminals output energy that the optical fiber structure 1 among the present invention realizes and gross energy ratio with wavelength change.

Fig. 5 is embodiments of the invention.

Fig. 6 is that the effective refractive index of conduction mode in the embodiment of the invention is with the normalization wavelength variations.

Fig. 7 be in the embodiment of the invention normalization coupling length with wavelength change.

Fig. 8 is based on 1.48 μ m of the embodiment realization among the present invention and the incident fibre core of 1.55 mum wavelength demodulation multiplexers is exported energy with wavelength change.

The optical fiber structure 2 that Fig. 9 is based among the present invention realizes that the incident fibre core output energy of polarization separator is with wavelength change.

Among the figure: 1. the strange pattern 19. in idol pattern 18.y polarization direction, strange pattern 17.y polarization direction, idol pattern 16.x polarization direction, light 15.x polarization direction, light 14.y polarization direction, idol pattern 10.y polarization direction strange pattern 11.x polarization direction normalization coupling length 12.y polarization direction normalization coupling length 13.x polarization direction, strange pattern 9.y polarization direction, idol pattern 8.x polarization direction, 7.x polarization direction, base material 2. airport 3. defective fibre cores, 1 4. defective fibre core 2 5. photon band gap lower boundaries, 6. photon band gap coboundary is without light 24.y polarization direction, light 23.x polarization direction, coupled wavelength 20.x polarization direction normalization coupling length 21.y polarization direction normalization coupling length 22.y polarization direction light

Embodiment

Specifically describe the specific embodiment of the present invention below in conjunction with accompanying drawing.

Air conducting double-core photon band gap optical fiber, comprise 3,4 and cladding regions that have airport of two defective fibre cores, covering is by constituting by the airport on the regular grid node 2 on the base material 1, two defective fibre cores are positioned at cladding center, be two airport defectives bigger than covering airport, xsect is a hexagon, and is constant along the length direction of optical fiber.

The airport shape is circular in covering and the fibre core, or other shape.

The covering airport is pressed triangular lattice and is arranged, and there be photon band gap at effective refractive index in clad section airport area and the ratio of the covering total area in less than 1 scope to guarantee this photonic crystal cladding structure greater than 67% in the xsect.

Defective fibre core place airport is centered close on the node of triangular lattice, and area intersects the common core region that forms greater than covering hollow stomatal size and with its surrounding air hole.

The light conducting field energy of air conducting double-core photon band gap optical fiber mainly is distributed in the air-core.

Described air conducting double-core photon band gap optical fiber has birefringence effect, and the conduction mode of different polarization direction has different coupling lengths.

When the line of centres of two defective fibre cores was parallel with the axis of symmetry of covering lattice structure Γ-K direction in the described air conducting double-core photon band gap optical fiber, its centre distance was at a distance of being covering airport spacing Doubly.

When the line of centres of two defective fibre cores was parallel with the axis of symmetry of covering lattice structure Г-M direction in the air conducting double-core photon band gap optical fiber, its centre distance apart was 3 times of covering airport spacing.

There is the wavelength that is not coupled in the pattern of the polarization direction parallel with defective core centre line in the air conducting double-core photon band gap optical fiber.

The xsect of air conducting double-core photon band gap optical fiber is circular or polygon: the defective fibre core is 2,3 or 4.

The manufacture method of air transmitted photon band-gap optical fiber is that existing kapillary is piled up drawing technology.Its main program is: 1, at first quartzy prefabricated rods is worn into hexagonal configuration, and the center is emptied; 2, in the stretching tower, prefabricated rods is pulled into the hollow kapillary of the about 1mm of external diameter; 3, these kapillaries are piled up by triangular lattice formed prefabricated rods together, and by lacking the defective fibre core that two kapillaries form big airport: 4, the preform bar stretching macro-scale becomes optical fiber in the stretching tower.Temperature and draw rate in size by adjusting airport in the kapillary, the position of defective and the pulling process can obtain the photon band-gap optical fiber of different cross section constant.

Because the Maxwell equation has ratio character, in the demonstration below, the conductive properties and the coupling length of the optical fiber that calculates adopted normalized, and to get covering airport spacing Λ be characteristic length, and then the length L by design Λ and coupling mechanism _d, realize directional coupler with specific function.

Figure l is depicted as cross section of optic fibre synoptic diagram of the present invention, base material 1 adopting quartz glass of twin-core photon band-gap optical fiber, airport 2 in the fibre cladding is positioned on the node of triangular lattice, and the spacing at adjacent vacant pore center is made as Λ, the radius r of airport 2=0.47 Λ.Two defective fibre cores 3,4 are positioned on the node of triangular lattice, and the line of core centre is parallel with the Г-K direction of triangular lattice, apart

The radius r of defective fibre core _c=1.05 Λ.

The pattern of conducting in this optical fiber has x, y, and the polarization direction of two quadratures, each polarization has idol, strange two kinds of patterns again simultaneously.Fig. 2 is the effective refractive index n of conduction mode in this optical fiber _Eff=β/k is with the variation of normalization wavelength X/Λ, and wherein β and k are wave numbers in the propagation constant of pattern and the vacuum, and λ is the vacuum medium wavelength.These patterns are between the photon band gap up-and-down boundary, and n _Eff＜1, show that this optical fiber utilizes the photonic band gap effects conduction.Because photon band gap has certain width, so all there is cutoff wavelength in photon band-gap optical fiber long wavelength and short wavelength, all is arranged in photon band gap in order to guarantee even pattern and strange pattern, requires 0.563 Λ≤λ 〉=0.638 Λ.By adjusting the value of airport spacing Λ,, just can change the operating wavelength range of fiber coupler shown in the present the optical fiber bi-directional scaling.

Fig. 3 has shown the normalization coupling length L of this optical fiber structure _c/ Λ is with the normalization wavelength change.Its coupling length has following characteristics, and the coupling length of two polarization directions descends with the increase of wavelength, and the coupling length of x direction is grown 1.5～2.5 times than the coupling length of y direction.

Demonstration graph 1 be shown in example of the present invention as the application of 1.55 mu m polarized separation vessels.If Λ=2.571 * 10 ^-6, and the length L of getting coupling mechanism _d=5.685mm.Fig. 4 shown in this case with the incident fibre core at the power of output terminal output and the ratio of general power, as shown in the figure, near wavelength is 1.55 μ m, the polarized light of y direction is substantially all by this port output, and the polarized light of x direction is 0, just export, thereby realized polarization separation from another port.

Figure 1 shows that the cross section of optic fibre synoptic diagram of second embodiment of the invention, base material 1 adopting quartz glass of twin-core photon band-gap optical fiber, airport 2 in the fibre cladding is positioned on the node of triangular lattice, and the spacing at adjacent vacant pore center is made as Λ, the radius r=0.47A of airport 2.Two defective fibre cores 3,4 are positioned on the node of triangular lattice, and the line of core centre is parallel with the Г-M direction of triangular lattice at a distance of 3 Λ.The radius r of defective fibre core _c=1.05 Λ.

Embodiment

Fig. 5 has shown the effective refractive index n of conduction mode in this optical fiber _EffVariation with normalization wavelength X/Λ.Yet, it should be noted that in Fig. 5 in the time of near normalization wavelength X/Λ=0.632, the even pattern of y polarization direction and strange pattern intersect, have identical propagation constant in the strange pattern in intersection point place with coupling, therefore put between two fibre cores in pairing wavelength place and can not be coupled at this.Fig. 6 has shown the coupling length L of this optical fiber structure _c/ Λ is with the normalization wavelength change.Wherein the coupling length of x polarization direction is similar with associative mode among the present invention with wavelength change trend, and just coupling length is shorter, shows that coupling is stronger, and this is because two fibre core spacings cause from nearer.And the coupling length of y polarization direction is infinitely great near no Coupling point, and descends rapidly on no Coupling point both sides.

Utilize no Coupling point, the easier design of the optical fiber structure of case study on implementation realizes the application of aspects such as wavelength and polarization separation.At first we demonstrate the design of 1.48/1.55 mum wavelength separation vessel.Consider y polarization direction incident, make wavelength 1.55 μ m corresponding with no Coupling point, promptly 0.632 Λ=1.55 μ m obtain airport spacing Λ=2.4531 μ m.This moment, wavelength was that the light of 1.55 μ m conducts in the incident fibre core all the time, established the length L of coupling mechanism then _dEqual the coupling length 2.702mm of 1.48 μ m, at this moment light outgoing from another fibre core of 1.48 μ m.When Fig. 7 had shown under the superincumbent configuration incident of y polarized light, the power of the exit ports of incident port identical arms output and the ratio of general power were with wavelength change.

Then our optical fiber structure of demonstrating embodiment is used for the application that wavelength is the polarization separator aspect of 1.55 μ m.Make wavelength 1.55 μ m corresponding equally, promptly get Λ=2.4531 μ m with no Coupling point.This moment, the y polarized light was not coupled, and got the coupling length L of the 1.55 μ m x of place polarized lights then _cAs the length of coupling mechanism, i.e. L _d=1.097mm.Fig. 8 has shown that the ratio of the power of exit ports output of incident port identical arms under the superincumbent configuration and general power is with wavelength change.

Claims (10)

1. air conducting double-core photon band gap optical fiber, it is characterized in that: comprise two defective fibre cores (3,4) and a cladding regions that has airport, covering is made of the airport of pressing on base material (1) on the regular grid node (2), two defective fibre cores are positioned at cladding center, be two airport defectives bigger than covering airport, xsect is a hexagon, and is constant along the length direction of optical fiber.

2. air conducting double-core photon band gap optical fiber according to claim 1 is characterized in that: the airport shape is circular or other shape in covering and the fibre core.

3. air conducting double-core photon band gap optical fiber according to claim 1, it is characterized in that: the covering airport is pressed triangular lattice and is arranged, clad section airport area and the ratio of the covering total area be greater than 67% in the xsect, has photon band gap at effective refractive index in less than 1 scope to guarantee this photonic crystal cladding structure.

4. air conducting double-core photon band gap optical fiber according to claim 1, it is characterized in that: defective fibre core place airport is centered close on the node of triangular lattice, and area intersects the common core region that forms greater than covering hollow stomatal size and with its surrounding air hole.

5. air conducting double-core photon band gap optical fiber according to claim 1 is characterized in that: the light conducting field energy of air conducting double-core photon band gap optical fiber mainly is distributed in the air-core.

6. air conducting double-core photon band gap optical fiber according to claim 1, it is characterized in that: air conducting double-core photon band gap optical fiber has birefringence effect, and the conduction mode of different polarization direction has different coupling lengths.

7. air conducting double-core photon band gap optical fiber according to claim 1, it is characterized in that: when the line of centres of two defective fibre cores was parallel with the axis of symmetry of covering lattice structure Г-K direction in the air conducting double-core photon band gap optical fiber, its centre distance was at a distance of being covering airport spacing

Doubly.

8. air conducting double-core photon band gap optical fiber according to claim 1, it is characterized in that: when the line of centres of two defective fibre cores was parallel with the axis of symmetry of covering lattice structure Г-M direction in the air conducting double-core photon band gap optical fiber, its centre distance apart was 3 times of covering airport spacing.

9. air conducting double-core photon band gap optical fiber according to claim 8 is characterized in that: there is the wavelength that is not coupled in the pattern of the polarization direction parallel with defective core centre line in the air conducting double-core photon band gap optical fiber.

10. air conducting double-core photon band gap optical fiber according to claim 1 is characterized in that: the xsect of air conducting double-core photon band gap optical fiber is circle or polygon; The defective fibre core is 2,3 or 4.

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