CN105676367B - Feedback type adjustable optical microcavity delay method - Google Patents

Abstract

The invention relates to the field of optical delayers, and the existing chip-integratable optical delayer system has high complexity and difficult synchronous regulation of a plurality of microcavity coupling states. Aiming at the problems, the invention discloses a feedback type adjustable optical microcavity delay method and a delayer, wherein the delayer comprises an optical signal input end, an optical signal output end, an optical microcavity, a coupling device, a first coupler and a second coupler, a port A of the first coupler is connected with the optical signal input end, a port B of the first coupler is coupled with the optical microcavity through the coupling device, a port C of the second coupler is connected with a port C of the second coupler, the port A of the second coupler is coupled with the optical microcavity through the coupling device, and the port B of the second coupler is connected with the optical signal output end. The invention utilizes a feedback mechanism to feed back and inject the emergent light into the cavity of the optical microcavity, increases the effective path of optical signal transmission and the adjustable delay of extra dispersion, has low system complexity and good delay effect, and can further adjust the delay effect by controlling the feedback condition, thereby achieving the adjustable delay.

Description

Reaction type adjustable optical microcavity time-delay method

Technical field

The present invention relates to optical time delay unit field, specially a kind of reaction type adjustable optical microcavity time-delay method and delayer.

Background technique

Optical time delay unit is all played an important role as a kind of optical passive component in communication field and phased-array radar field. In optical communication time division multiplex system, optical time delay unit is used to generate the multiplexed signals of high bit rate and realizes light buffer area, reduces Packet loss improves the performance of communication system；In phased-array radar, optical time delay unit is reducing aerial array weight, improves thunder Up to resolution ratio, recognition capability, solution multi-target imaging, electromagnetism interference, simplify structure etc. with big advantage.

The conventional light path of optical time delay unit is generally suitably delayed by the way of increasing optical path length, to obtain expection Delay effect.

In recent years, the requirement with modern communication systems and phased array radar system to system dimension, power consumption etc. is not It is disconnected to improve, chip can the optical time delay unit of integrated-type become the main direction of studying of current light delayed time system.But optical time delay unit Size directly limit and can be obtained optical path length in delayer, cause chip can integrated-type optical time delay unit in addition to utilizing It also needs further to utilize delay caused by additional dispersion outside the delay pattern of conventional light path.Such optical time delay unit usually collects Keep light wave multiple in annular intracavity round trip using its resonance effect to light wave at optical microresonator (abbreviation optical microcavity) Transmission is to generate certain delay to light wave, in addition, the time delay device of chip requires to generate in small frequency range domestic demand Biggish SPA sudden phase anomalies, could obtain preferable delay effect, thus the echo wall mode optical micro-cavity of high quality coefficient (Q) at For current chip can integrated-type optical time delay unit first choice.But single optical microcavity Q value is limited under conventional light path, therefore researcher Gradually development obtains longer delay in the form of series connection optical microcavity or coupling optical micro-cavity wave-guide, usually passes through conjunction Reason design micro-loop cavity configuration and the micro-loop chamber for cascading certain amount can reach the good control to amount of delay, such as Chinese patent The described design of the application for a patent for invention of publication number CN101881859A and CN101576634, but no matter optical time delay unit is adopted Which kind of concatenated schemes sharply increasing for the complexity of optical time delay unit is necessarily brought with, further improves delayed time system to light The power requirement in source, and need to face the technical problem that multiple microcavity couple states are adjusted synchronously and are controlled, simultaneously The encapsulation difficulty for necessarily increasing considerably optical time delay unit influences optical time delay unit in the large-scale application of industry.

Summary of the invention

For the problems of the prior art, the present invention provides that a kind of structure is simple, without cascading the anti-of multiple optical microcavities Feedback formula adjustable optical microcavity time-delay method and delayer.

To realize the above technical purpose, the technical scheme is that

A kind of reaction type adjustable optical microcavity time-delay method, optical signal is by coupled apparatus injection optics microcavity and from optics Microcavity coupling output, the optical signal of output refill after optical microcavity and finally defeated from optical microcavity again by coupled apparatus Out, to realize the delay to optical signal.

The time-delay method has following advantages:

Using feedback mechanism, by emergent light feedback, simultaneously injection optics microcavity is intracavitary, increases the active path of optical signal transmission And the adjustable delay of additional dispersion, the effect of optical microcavity delayer is improved in the case where not increasing system complexity； The delay effect of optical microcavity delayer can be further adjusted, to reach optics by the control to feedback condition simultaneously Microcavity delayer it is adjustable.

Preferably, injection optics microcavity injects the optical signal from the same position of optical microcavity twice；Same position Coupling, coupled structure are simple.

Preferably, injection optics microcavity injects the optical signal from the different location of optical microcavity twice；Different location Coupling, coupling unit adjust more flexible changeable.

To realize above-mentioned time-delay method, the present invention provides a kind of reaction type adjustable optical microcavity delayer, technical solution packet Include two kinds:

The first technical solution are as follows: a kind of reaction type adjustable optical microcavity delayer, including optical signal input, optical signal Output end and optical microcavity further include coupled apparatus, the first coupler and the second coupler, the port A of first coupler It is connected with optical signal input, port B is coupled by coupled apparatus with optical microcavity, the port C phase of port C and the second coupler Even, the port A of second coupler is coupled by coupled apparatus with optical microcavity, and port B is connected with light signal output end.

The delayer has following advantages:

Using feedback mechanism, by emergent light feedback, simultaneously injection optics microcavity is intracavitary, increases the active path of optical signal transmission And the adjustable delay of additional dispersion, the effect of optical microcavity delayer is improved in the case where not increasing system complexity； The delay effect of optical microcavity delayer can be further adjusted, to reach optics by the control to feedback condition simultaneously Microcavity delayer it is adjustable.

Second of technical solution are as follows: a kind of reaction type adjustable optical microcavity delayer, including optical signal input, optical signal Output end and optical microcavity, further include 2 coupled apparatuses and coupler, and the port A of the optical signal input and coupler is logical It crosses one of coupled apparatus to couple in the side of optical microcavity with optical microcavity, the end of the light signal output end and coupler Mouth C is coupled in the other side of optical microcavity with optical microcavity by another coupled apparatus.

The delayer has following advantages: in addition to having the advantages that the first technical solution, with the first technical solution phase Than: structure is more simple, and there are two optical microcavity coupling positions, and coupling unit adjusts more flexible changeable.

In above two technical solution:

Preferably, the structure of the optical microcavity is appointing for micro-loop, microballoon, micro- disk, microtrabeculae, micro- core annulus and deformable cavity It anticipates one kind；Optical microcavity various structures are optional, the characteristics of according to different structure, select suitable applications.

Preferably, the material that is made of the optical microcavity is any of silica, polymer, semiconductor and calcirm-fluoride It is a kind of；The advantage of material respectively is made according to difference, selects suitable applications.

Preferably, any one for optical fiber, waveguide and the prism that the coupled apparatus is optical taper, one end tiltedly polishes； A variety of coupled apparatuses are optional, according to the feature of different coupled apparatuses respectively, select suitable applications.

Preferably, first coupler be optical-fiber type coupler, micro element type coupler, slab guide coupler and Evanescent wave leads any one of coupler；According to the advantage of different type coupler respectively, suitable applications are selected.

Preferably, second coupler is optical-fiber type coupler, micro element type coupler, slab guide coupler Any one；According to the advantage of different type coupler respectively, suitable applications are selected.

Preferably, the coupler be optical-fiber type coupler, micro element type coupler, slab guide coupler it is any It is a kind of；According to the advantage of different type coupler respectively, suitable applications are selected

Detailed description of the invention

Fig. 1 is the structural schematic diagram of embodiment 1；

Fig. 2 is the light field schematic diagram of embodiment 1；

Fig. 3 is the structural schematic diagram of embodiment 2；

Fig. 4 is the light field schematic diagram of embodiment 2；

Appended drawing reference: 1. optical signal inputs, 2. light signal output ends, 3. optical microcavities, 4. coupled apparatuses, 5. first couplings Clutch, 6. second couplers, 7. couplers.

Specific embodiment

The embodiment 1 that the present invention will be described in detail combined with Figure 1 and Figure 2, but any limit is not done to claim of the invention It is fixed.

As shown in Figure 1, a kind of reaction type adjustable optical microcavity delayer, including optical signal input 1, light signal output end 2, optical microcavity 3, coupled apparatus 4, the first coupler 5 and the second coupler 6；The port A and optical signal of first coupler 5 are inputted End 1 is connected, and port B is coupled by coupled apparatus 4 with optical microcavity 3, and port C is connected with the port C of the second coupler 6；Second The port A of coupler 6 is coupled by coupled apparatus 4 with optical microcavity 3, and port B is connected with light signal output end 2.

Wherein, optical microcavity 3 uses micro-loop structure, and coupled apparatus 4 uses optical taper.

When work, the transmission process of optical signal are as follows:

1. the port A of the first coupler of optical signals 5 of optical signal input 1 is input to the first coupler 5, then from end Mouth B output；

2. the optical signal of 5 port B of the first coupler output is injected into optical microcavity 3 by coupled apparatus 4, then pass through again Coupled apparatus 4 couples the port A for being output to the second coupler 6；

3. the optical signal a part for entering the second coupler 6 is directly output to light signal output end 2 by port B, another Part re-injects into the first coupler 5 by the port C being connected with the first coupler 5；

4. the optical signals light signal output end 2 after reaching the total delay for stablizing output exports.

The delay effect of optical signal, circular are as follows:

As shown in Fig. 2, being the light field schematic diagram of embodiment 1.

If E_in1Light field, E are inputted for optical signal_in2To input the light field that light field is coupled with feedback light by the first coupler, E_sFor the light field in optical microcavity, E_out1For the output light field of optical microcavity coupling, E_out2For the output light field of whole system.

If p, k is to light field E_in2It is input to the transmission coefficient and the coefficient of coup of optical microcavity, p ', k ' are light field E_sInput To the transmission coefficient and the coefficient of coup of optical microcavity, there are p=p ', k=k ' and p²+k²=1.α₀For the linear attenuation of optical microcavity The factor, optical microcavity radius length are α, L₀=2 π α are the length of chamber, n_sFor intracavitary refractive index, c is the light velocity, and optical microcavity prolongs WhenThe phase additionally obtained in communication processδ_cTo be lost due to caused by coupled mode, δ₀For Intracavitary intrinsic loss, ω are the frequency of input light, ω₀For the resonant frequency in optical microcavity, Δ ω is optical microcavity center Detuning, Δ ω=ω of frequency₀-ω。

The case where for external feedback, if n is the refractive index in optical fiber, α₁For external feedback partial linear decay factor,For External feedback part additional phase shift, L₁For E_out1To E_in2Total length, τ₁For L₁Section fiber delay time, meets For E_out1To the second coupler additional phase shift, L₂For E_out1To the length of the second coupler, τ₂For L₂Section fiber delay time, meetsη₁For the coefficient of coup of input light and the first coupler, η₂For the coupling of the second coupler and output light Collaboration number.

Light field fundamental equation has:

E_out1(t)=pE_in2(t)+jk′E_s(t)

It is available based on this reaction type adjustable optical microcavity delayer by the derivation to above-mentioned light field fundamental equation The expression formula of total delay τ are as follows:

Wherein:

We can be by adjusting coupler coupling ratio η₁And η₂, fiber delay time τ₁、τ₂Etc. parameters realize to delay effect Adjusting, with meet we to be delayed big minor adjustment the needs of.

In conjunction with Fig. 3 and Fig. 4, the embodiment 2 that the present invention will be described in detail, but any limit is not done to claim of the invention It is fixed.

As shown in figure 3, a kind of reaction type adjustable optical microcavity delayer, including optical signal input 1, light signal output end 2,3,2 coupled apparatuses 4 of optical microcavity and coupler 7；The port A of optical signal input 1 and coupler 7 passes through one of coupling Clutch part 4 is coupled in the side of optical microcavity 3 with optical microcavity 3, and the port C of light signal output end 2 and coupler 7 passes through another A coupled apparatus 4 is coupled in the other side of optical microcavity 3 with optical microcavity 3.

Wherein, optical microcavity 3 uses micro-loop structure, and coupled apparatus 4 uses optical taper.

When work, the transmission process of optical signal are as follows:

1. the optical signal of optical signal input 1 is injected into optical microcavity 3 by a coupled apparatus 4；

2. the optical signal for being injected into optical microcavity 3 is coupled from the two sides of optical microcavity 3 defeated respectively by 2 coupled apparatuses 4 Out, two outgoing routes are respectively as follows: the side that A. is connected with the port A of coupler 7, and optical signal enters coupler 7, and then one Divide and directly exported from port B, another part exports from port C and then re-injects into optical microcavity 3 by coupled apparatus 4；B. The side being connected with light signal output end 2, optical signal are directly output to light signal output end 2；

3. the optical signals light signal output end 2 after reaching the total delay for stablizing output exports.

The delay effect of optical signal, circular are as follows:

As shown in figure 4, being the light field schematic diagram of embodiment 2.

If E_inLight field is inputted for optical signal, is coupled through optical taper with optical microcavity, E₁₁For input light field and optical microcavity The light field of coupling, E₂₁For light field E₁₁Light field after the loss of semi-perimeter optical microcavity, E₂₂To penetrate optical taper light field E₃₂With light Learn light field E in microcavity₂₁The light field of coupling, E₁₂For light field E₂₂Light field after the loss of semi-perimeter optical microcavity, E₁₃It is micro- for optics The output light field of chamber upper port, E₃₁For light field E₁₃By a Duan Changwei L₁₃Fibre loss after light field, E_out1For light field E₃₁Through The light field of overcoupling device output, E₃₂For light field E₃₁Being coupled to optical taper using another segment length by coupler is L₃₂Optical fiber Light field after loss, E_out2For final output light field.

If p₁、k₁For light field E_inIt is input to the transmission coefficient and the coefficient of coup of optical microcavity, p₁′、k₁' it is light field E₁₂Input To the transmission coefficient and the coefficient of coup of optical microcavity, p₂、k₂For light field E₃₂It is input to the transmission coefficient and coupled systemes of optical microcavity Number, p '₂、k₂' it is light field E₂₁It is input to the transmission coefficient and the coefficient of coup of optical microcavity, and has p1=p1 ', k₁=k₁' andP2=p '₂, k₂=k₂' andC is the light velocity, and optical microcavity inner refractive index is n_s, Zhou Changwei 2L₁₂, loss factor α_s, phase shift isDelay is 2 τ₁₂, ω is the frequency of input light, ω₀For optical microcavity resonant frequency, Δ ω is the detuning of optical microcavity centre frequency, is met: τ₁₂=2n_sL₁₂/ c,Optical fibre refractivity For n, loss factor α, L₁₃For E₁₃To E₃₁Total length, a length of L₁₃Phase shift beThe transmission used time is τ₁₃, meetL₃₂For E₃₁To E₃₂Total length, a length of L₃₂Phase shift beThe transmission used time is τ₃₂, meetτ is final output light field E_out2Opposite input light field E_inTotal delay, η be coupler coupled systemes Number.

Light field fundamental equation has:

It is available based on this reaction type adjustable optical microcavity delayer by the derivation to above-mentioned light field fundamental equation The expression formula of total delay τ are as follows:

Wherein:

We can pass through the coefficient of coup η and fiber delay time τ of adjusting coupler₁₃、τ₃₂Etc. parameters realize to delay The adjusting of effect, to meet the needs of we are to delay big minor adjustment.

Above-mentioned two embodiment, when specific implementation:

1. the other structures in addition to micro-loop, such as microballoon, micro- disk, microtrabeculae, micro- core circle can also be used in the structure of optical microcavity 3 The structures such as ring and deformable cavity；

2. optical microcavity 3 be made material can be used silica, polymer, semiconductor and calcirm-fluoride any one；

3. coupled apparatus 4 is in addition to optional optical taper, also can be selected optical fiber, prism and waveguide that one end tiltedly polishes etc. other Optical microcavity near-field coupling device；

4. various types of couplers can be selected in the first coupler 5, the second coupler 6 and coupler 7, as optical-fiber type couples Device, micro element type coupler, slab guide coupler etc..

In conclusion the invention has the following advantages that emergent light is fed back simultaneously injection optics microcavity chamber using feedback mechanism It is interior, the active path of optical transport and the adjustable delay of additional dispersion are increased, is changed in the case where not increasing system complexity It has been apt to the effect of optical microcavity delayer；Simultaneously optical microcavity delay can be further adjusted by the control to feedback condition The delay effect of device, to reach the adjustable of optical microcavity delayer.

It is understood that being merely to illustrate the present invention above with respect to specific descriptions of the invention and being not limited to this Technical solution described in inventive embodiments.Those skilled in the art should understand that still can be carried out to the present invention Modification or equivalent replacement, to reach identical technical effect；As long as meet use needs, all protection scope of the present invention it It is interior.

Claims (1)

1. a kind of reaction type adjustable optical microcavity time-delay method, it is characterised in that: optical signal is micro- by coupled apparatus injection optics Chamber is simultaneously coupled from optical microcavity and is exported, and the optical signal of output refills after optical microcavity again by coupled apparatus and from optics Microcavity final output, to realize delay to optical signal, the optical signal twice injection optics microcavity from the same of optical microcavity One position or different location injection.