CN109100310A - A kind of super spectrographic detection micro-system - Google Patents

Abstract

A kind of super spectrographic detection micro-system, it include: that light collects coupling module, waveguide light-splitting chip and spectroscopic data processing module, wherein waveguide light-splitting chip includes that cascade MZI waveguide filter, wave-guide optical switch array, hot light phase modulation MZI array and on piece integrate linear array detector.The present invention is integrated with integrated silicon-based cascade MZI Waveguide array technology, hot light phasing technique, silicon substrate spectrum technology, on piece detector integrated technology, signal processing and spectrum recovering algorithm and Si-CMOS technique and micro-system High Density Integration manufacturing process, realization have many advantages, such as wide spectrum investigative range, EO-1 hyperion detection accuracy, ultra-small volume weight power consumption, Ultra Low Cost, fast reserve.

Description

A kind of super spectrographic detection micro-system

Technical field

The present invention relates to micro spectral field of analytic instrument, are based on silicon-based cascade MZI array wave in particular to one kind The super spectrographic detection micro-system of the chip-scale of waveguide technology.

Background technique

Super-resolution spectral analysis technique can be widely applied to food safety as a kind of important optical detection perception means The fields such as detection, gas-monitoring, trademark anti-counterfeit.Often need to be added food in food hygiene laboratory agent detection, Degree of spoilage detection, Detecting Pesticide, chemical residues detection etc. work, conventional method need to extract sample tissue with it is specific The reagent of type carries out chemical reaction detection, and detection time is slow, complex procedures and expendable detection reagent cost compared with It is high.And the detection mode of utilization spectral analysis technique is easy to operate, detection time is quick, is not necessarily to expendable detection reagent, and has There is the advantages of non-contact, without destroying.Meanwhile it can effectively be mentioned by improving spectral resolution and pointedly expanding spectral region High target detection accuracy.In addition, can be tried in gas-monitoring field using the detection means of spectral analysis technique to avoid detection The replacement of agent improves life of product.

The micro spectrometer of technology maturation, which is divided principle according to it, at present can be divided mainly into color dispersion-type and two kinds of interference-type.Color The micro spectrometer for dissipating type is generally based on the light splitting principle of grating dispersion, in conjunction with classical optical texture such as Ebert- The fine measurement of the realization spectrum such as Fastie structure, Czerny-Turner structure, Littrow structure.Optical grating construction can be used flat Two kinds of structures of concave grating and concave grating, wherein being conducive to the module of system element using the optical texture based on plane grating Change.And concave grating eliminates collimating mirror and imaging mirror element compared to plane grating system, same depth of focus can have smaller System bulk, while concave grating passes through holographic optimization design can correct the most aberration of system.

However, color dispersion-type micro spectrometer is mainly based upon the micromation of mechanical-optical setup and system element, integration degree Not high, the stability of system is poor.In addition, the micro spectrometer luminous flux based on dispersion light splitting is smaller, capacity usage ratio is low, right The more demanding of light intensity is detected, its operating distance and application range are limited.

Interference-type micro spectrometer is based on principle of interference, carries out Fourier by the signal obtained to detection and changes to obtain Spectral signal.The microtechnology Research Institute of Neuchatel university of Switzerland has gone out a kind of integrated Fourier transformation light of lamellar grating Spectrometer a, electrostatic comb drive made on insulator silicon chip of deep reaction etching method built in the instrument, comes Control the movement of reflecting mirror.The height of reflecting mirror is 75 μm, and screen periods number is 32mm-1, and screen periods length is 100 μm, device The overall size of part is 7mm × 4mm, and the working range of the spectrometer is 380nm~1700nm.Egyptian Si-Ware company NeoSpectra type spectrometer realizes Michelson's interferometer using MEMS technology in silicon substrate, and passes through MEMS actuator It realizes that spectrum is adjusted, using InGaAs detector detectable signal, Fourier is carried out to it and converts to obtain spectral information.

And the spectrometer for the spectrometer either based on Michelson's interferometer still based on adjustable F-P cavity, according to Rely in MEMS electrostatic regulation technology, it is higher to MEMS device degree of regulation and stability requirement.In addition, interference-type micro spectrometer Structure is complicated, more demanding to MEMS processing technology, and higher cost limits its scope of application.

Therefore, the integration degree for how improving system, reduces the complexity of structure, spread spectrum investigative range, The technical issues of as prior art urgent need to resolve.

Summary of the invention

It is an object of the invention to propose a kind of super spectrographic detection micro-system, volume can be reduced, system work number is reduced, mentions High-resolution, spread spectrum investigative range.

To achieve this purpose, the present invention adopts the following technical scheme:

A kind of super spectrographic detection micro-system, comprising:

Light collects coupling module, for collecting the radiation optical information of target, and is coupled to waveguide light-splitting chip；

Waveguide light-splitting chip, for carrying out spectrum using MZI array and through light for after the radiant light being collected into filtering Electric signal is exported after electricity conversion；

Spectroscopic data processing module, the spectral information for being restored to target for electric signal will to be exported.

Optionally, the light collects specifically including for coupling module:

Optical lens group is coated with anti-reflection anti-reflective and filtering film layer, for receiving the radiant light of target spectral coverage, and is had The radiant light of input spectrum bandwidth；

Transmission fiber, for improving the coupling efficiency that radiant light enters optical waveguide as intergrade；

Lateral tapered pattern matcher, for radiant light to be coupled into the waveguide light-splitting core from the transmission fiber Piece.

Optionally, it is collected in coupling module in the light, radiant light and the coupling efficiency of transmission fiber indicate in space are as follows:

Wherein a is that the diameter of optical lens group propagates backward to the diameter ratio of the field before optical lens with optical fiber mode fields；

A_R、A_CRespectively the coupling mirror area of optical lens group and speckle area；

x₁、x₂It is incident on the spot size on optical lens for light field, the hot spot of respectively main shaft and its vertical direction is big It is small.

Optionally, the waveguide light-splitting chip specifically includes:

It cascades MZI waveguide filter, wave-guide optical switch array, hot light phase modulation MZI array, on piece and integrates linear array detector.

Wherein, MZI guide filter is cascaded, for the input spectrum bandwidth to be divided into n optical channel, each optical channel tool There is certain optical channel bandwidth；

Wave-guide optical switch array is gated for n optical channel to be carried out n × 1；

Hot light phase modulation MZI array for the optical channel gated to be carried out spatial Fourier light splitting, and passes through hot light phase modulation Realize spectrum fine tuning；

On piece integrates linear array detector, for the optical signal of the hot light phase modulation MZI Waveguide array output to be carried out photoelectricity Conversion output electric signal.

Optionally, the input spectrum bandwidth of 500nm is divided into the light of 4 125nm bandwidth by the cascade MZI waveguide filter Channel.

Optionally, the wave-guide optical switch array is based on silicon integreted phontonics technology, injects MMI using carrier (Multimode Interference) injects carrier concentration by changing, changes the absorption coefficient of material, thus successively real The switching of existing multiple and different central wavelength spectral bands.

Optionally, the spectrographic detection resolution ratio expression formula of the hot light phase modulation MZI array are as follows:

Spectrographic detection spectrum width:

Wherein λ₀For the central wavelength of distinguishable spectral region；n_effFor waveguide effective index；N is MZI number of arrays；Δ L_minIt is poor for MZI two-arm minimum length.

Optionally, it is Δ L that the hot light phase modulation MZI array, which introduces the minimum optical path difference before hot light phase modulation,_min, each output The output power of port is P_out(li), it introduces the minimum optical path difference after heat is adjusted between MZI interferometer and changes into Δ L_min+ΔL₀, Output power after heat is adjusted is P_out(li+iΔL₀), to change wave number σ₀, and then change the middle cardiac wave of distinguishable spectral region Long λ₀, realize finer spectrographic detection.

Optionally, the on piece integrates linear array detector, realizes that on piece is integrated using heterogeneous or Manufacturing resource method.

Optionally, the spectroscopic data processing module, specifically includes:

Noise remove module, for filtering out the background noise signal in spectrographic detection micro-system；

Flat field correction mould obtains the response coefficient of optical detector difference pixel for calibrating optical detector, compensates by it Signal errors caused by inhomogeneities；

ADC apodization module restores real spectrum signal for carrying out apodization operation, improves signal-to-noise ratio；

Spectroscopic data inverting module obtains preliminary spectral information for carrying out spectroscopic data inverting.

Spectral radiometric calibration module carries out school to the spectral information being finally inversed by for carrying out radiation calibration to spectrum Just, output spectrum information.

The invention has the advantages that

(1) present invention proposes the chip-scale super-resolution spectrographic detection micro-system framework based on silicon light integrated technology, by waveguide It is integrated on the same base to cascade broadband spectral filter, slab guide MZI array spectral module and detector, it is super compared to tradition Spectrum investigating system is substantially reduced volume, weight and power consumption, be not necessarily to scan module, can lifting system stability, realize chip The super spectrographic detection of grade.

(2) the cascade architectural framework that the present invention is divided in advance using broadband spectral and waveguide MZI array spectral is finely divided, can It realizes big spectrographic detection range and more high spectral resolution spectrographic detection, and there is preferable spectral coverage expansion.

(3) present invention is proposed using hot light phasing technique on the basis of waveguide array MZI spectrum to each MZI optical path difference is adjusted, and then realizes the ultraspectral resolution detector within the scope of target optical spectrum, is not increasing MZI array Under the premise of quantity, the Output optical power under different optical path differences can get.

Detailed description of the invention

Fig. 1 is the super spectrographic detection micro-system frame diagram of specific embodiment according to the present invention；

Fig. 2 is the super spectrographic detection microsystem organization figure of specific embodiment according to the present invention；

Fig. 3 is that the light of specific embodiment according to the present invention collects coupling module structural schematic diagram；

Fig. 4 is the pre- spectral module effect picture of ideal wide spectrum；

Fig. 5 is the 1200nm-1325nm optical switch module effect picture of specific embodiment according to the present invention；

Fig. 6 is the hot light phase modulation Waveguide array unit amplification frame diagram of silicon substrate of specific embodiment according to the present invention；

Fig. 7 is the spectroscopic data processing module figure of specific embodiment according to the present invention.

The technical characteristic in appended drawing reference the respectively referred to generation in figure are as follows:

1, light collects coupling module；2；Chip of light waveguide, 3；Spectroscopic data processing module,；11, optical lens group；12, it passes Lose fibre；13, lateral taper pattern matcher；21, MZI waveguide filter is cascaded；22, wave-guide optical switch array；23, hot light tune Phase MZI Waveguide array；24, on piece integrates linear array detector；31, noise remove module；32, flat field correction module；33, ADC is cut Toe module；34, spectroscopic data inverting module；35, spectral radiometric calibration module.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched The specific embodiment stated is used only for explaining the present invention rather than limiting the invention.It also should be noted that in order to just Only the parts related to the present invention are shown in description, attached drawing rather than entire infrastructure.

The present invention integrates silicon-based cascade MZI Waveguide array technology, silicon substrate spectrum technology, the spectrum based on hot light phase modulation Differential analysis technique, on piece detector integrated technology, signal processing and spectrum recovering algorithm, and utilize the above Technology design light wave Chip is led, the super spectrographic detection micro-system framework of chip-scale is constructed.

Specifically, the present invention collects the radiation optical information of target first, and it is coupled in chip of light waveguide, in waveguide core In piece, input light through cascade broadband filter carry out spectral width band be divided in advance, rough segmentation be several broadband spectral bands of a spectrum, after by Slab guide MZI array carries out the super-resolution spectrum in each spectral bands；Heat is introduced in Planar waveguide array unit Light phase modulation unit can be obtained the spectral information under different optical path differences, and then can be obtained by spectrum difference analysis more fine Spectral information；For the integrated level for improving system, waveguide optical switch battle array is introduced between broadband filter and hot light phase modulation MZI array It is listed in each spectrum interband to switch over, realizes the time-sharing multiplex of slab guide super-resolution spectral module；Planar waveguide array Output optical registration is coupled on the integrated detector of corresponding on piece, and the output light of detector is after reading circuit is read, through light Spectrum signal restoration disposal obtains the spectral information of target to realize chip-scale, ultraphotic spectral resolution, wide spectral range light Spectrum detection.

Referring to Fig. 1, the super spectrographic detection micro-system frame diagram of specific embodiment according to the present invention is shown, Fig. 2 shows The super spectrographic detection microsystem organization figure of specific embodiment according to the present invention.

The super spectrographic detection micro-system includes: that light collects coupling module 1, and waveguide light-splitting chip 2 and spectroscopic data handle mould Block 3；

The light collects coupling module 1, for collecting the radiation optical information of target, and is coupled to waveguide light-splitting chip 2, should Radiant light information includes the light of objective emission and reflection；

Waveguide light-splitting chip 2, for carrying out after the radiant light being collected into filtering spectrum using MZI array and passing through Electric signal is exported after photoelectric conversion；

Spectroscopic data processing module 3, the spectral information for being restored to target for electric signal will to be exported.

Coupling module 1 is collected for light, since spatial light to be directly coupled into the technology of optical waveguide using waveguide optical grating Scheme is very sensitive for the wavelength of incident light, therefore, the present invention using after optical lens group and fiber coupling, then by optical fiber with The cascade processing scheme of chip of light waveguide coupling.By one end coupling package of lens group and broadband transmission optical fiber, then by the other end It is coupled with the input waveguide of the on piece integration module of chip of light waveguide, realizes the front end input of detection optical signal.In optical fiber and wave When leading coupling, need to consider influence of the light field mode transmission characteristic under certain spectral bandwidth (such as 500nm) to coupling efficiency, Therefore it is optically coupled using pattern matcher scheme, specially lateral tapered pattern matcher.Which simple process is easy to It realizes, is theoretical simply complete, by the length of design adjustment output waveguide, width, drawing cone section length and laterally pull and bore function etc. Higher coupling efficiency may be implemented in parameter.

Specifically, showing the concrete form that light collects coupling module 1 referring to Fig. 3, comprising:

Optical lens group 11 is coated with anti-reflection anti-reflective and filtering film layer, for receiving the radiant light of target spectral coverage, and is had There is the radiant light of input spectrum bandwidth；Optionally, input spectrum bandwidth is 500nm, so that meeting 1200nm-1700nm wavelength light Through the cut-off of other spectral coverage wavelength lights.

Transmission fiber 12, for improving the coupling efficiency that radiant light enters optical waveguide as intergrade；

Lateral tapered pattern matcher 13, for radiant light to be coupled into the waveguide light-splitting core from the transmission fiber Piece.

It can be improved using lateral tapered pattern matcher 13 and enter as the radiant light of signal light from the transmission fiber The coupling efficiency of the waveguide light-splitting chip avoids the light frequency selectivity of waveguide optical grating when incident light is wide spectral range Lose incident optical signal；

Wherein, radiant light and the coupling efficiency of transmission fiber can indicate in space are as follows:

Wherein a is that the diameter of optical lens group propagates backward to the diameter ratio of the field before optical lens with optical fiber mode fields；

A_R、A_CRespectively the coupling mirror area of optical lens group and speckle area；

x₁、x₂It is incident on the spot size on optical lens for light field, the hot spot of respectively main shaft and its vertical direction is big It is small.

And it is theoretical according to simplified waveguide transmission, single mode transport need to meet the following conditions:

Wherein under symmetrical optical waveguide,Respectively waveguide core layer and substrate/coating refractive index.Both, Waveguide core layer thicknessUnder identical waveguiding structure parameter, if short wavelength meets single mode condition, long wavelength is same Single mode condition will be met.Waveguide parameter will be designed respectively adjustment according to different piece and effect in subsequent module.

For waveguide light-splitting chip 2, referring to Fig. 1 and Fig. 2, multiple components are integrated in such a way that on piece is integrated, comprising: It cascades MZI waveguide filter 21, wave-guide optical switch array 22, hot light phase modulation MZI array 23, on piece and integrates linear array detector 24.

Wherein, MZI guide filter 21 is cascaded, for the input spectrum bandwidth to be divided into n optical channel, each optical channel With certain optical channel bandwidth, the product of the optical channel bandwidth and optical channel quantity is equal to output input spectrum bandwidth.One In a specific embodiment, MZI waveguide filter 21 is cascaded, the input spectrum bandwidth of 500nm is divided into 4 125nm bandwidth Optical channel.

Wave-guide optical switch array 22 is gated for n optical channel to be carried out n × 1.In a specific embodiment, by 4 A 125nm bandwidth optical channel carries out 4 × 1 gatings；

Hot light phase modulation MZI array 23 for the optical channel gated to be carried out spatial Fourier light splitting, and passes through hot light tune Mutually realize spectrum fine tuning；

On piece integrates linear array detector 24, for the optical signal of the hot light phase modulation MZI Waveguide array output to be carried out light Electricity conversion output electric signal.

The present invention passes through the pre- light splitting technology of broadband spectral by taking the spectrographic detection range to 1200nm-1700nm as an example first Investigative range is divided into multiple spectral bands, spectrum cutting is carried out to a wide range of spectrum, forms the close of 4 125nm spectral widths Like rectangular window bandpass filter.Broadband spectral filter proposed adoption cascades MZI scheme, i.e., is filtered using cascade MZI waveguide Wave realizes big bandwidth, the spectrum of high-isolation is divided in advance by the selection of design and parameter to MZI structure.

Cascade MZI waveguide can choose design and verifying that silicon nitride material is filtered device, and refractive index of silicon nitride is about 2, it is very low in 450nm-2000nm range inner waveguide transmission loss, and be widely used in CMOS technology, processing cost is lower. By adjusting etch process parameters, changes waveguide sections shape, can be realized effective dispersion management, it is low convenient for designing and producing out It is lost, the filtering device of high-isolation,

Further, in order to which the complexity for reducing follow-up signal processing drops as far as possible during designing filtering device Power jitter in low bands of a spectrum can cooperate the dispersion management scheme based on cascade MZI, to realize that flat rubber belting filters.Referring to fig. 4, Show the pre- spectral module effect picture of ideal wide spectrum.

After broadband spectral is divided in advance, ultrahigh resolution subdivision is carried out to the spectrum in each spectral bands in order to realize, is needed Super-resolution Subsection spectrum module is connected to adding in each bands of a spectrum, but this will will lead to entire on piece filtering high-resolution light splitting System occupies biggish chip area.Simultaneously as each latter linked super-resolution spectrum module of spectral bands is full Under foot-eye definition case, it can be designed using identical structure.Therefore integrated level in order to further increase, the present invention is in grade It is switched between each spectral bands after connection MZI waveguide using wave-guide optical switch array, removes the module of redundancy, realize light Compose the gating of light passing bands of a spectrum and the time division multiplexing of super-resolution spectroscopic module.

Specifically, the wave-guide optical switch array 22 is based on silicon integreted phontonics technology, MMI is injected using carrier (Multimode Interference).Carrier concentration is injected by changing, changes the absorption coefficient of material, thus successively real The switching of existing multiple and different central wavelength spectral bands.The waveguide optical switch should improve the response speed of photoswitch as far as possible Degree reduces the loss and crosstalk of photoswitch, improves extinction ratio, realizes polarization insensitive.The bandwidth and optical channel of each photoswitch Bandwidth is consistent.Referring to Fig. 5, the 1200nm-1325nm optical switch module effect picture of specific embodiment according to the present invention is shown.

Super-resolution Subsection spectrum module after photoswitch is used and is based on silicon substrate ultrahigh resolution spectral module. It is to be based on Planar waveguide array, and introduce hot light phasing technique on this basis based on silicon substrate ultrahigh resolution spectral module, By detecting and analyzing spectrum differential signal come the super-resolution spectroscopic behaviour of further hoisting module.

Specifically, MZI structure is introduced into Waveguide array, sky is utilized present invention employs hot light phase modulation MZI array 23 Between heterodyne technology improve the spectral resolution of system.Hot light phase modulation MZI array belongs to slab guide MZI array, is based on battle array The design philosophy of train wave guide grating (AWG) replaces waveguide delay line phase and star in AWG to couple using waveguide MZI structure Device.The fixed length difference of MZI difference, realizes the relevant light splitting of different wavelengths of light in each channel.The beam-splitting structure category of this structure Static Fourier spectrum beam-splitting structure determines that the maximum length of array MZI structure is poor according to spectral resolution in the design；According to Detecting light spectrum range determines the stepping-in amount of phase delay；In conjunction with spectrographic detection range and resolution ratio, the channel of Waveguide array is determined Number.Wherein spectrographic detection resolution ratio expression formula are as follows:

Spectrographic detection spectrum width:

Wherein λ₀For the central wavelength of distinguishable spectral region；n_effFor waveguide effective index；N is MZI number of arrays；Δ L_minIt is poor for MZI two-arm minimum length.

To realize big spectral region, high spectral resolution design, it is necessary to increase MZI array quantity, to increase technique Difficulty.In order to reduce processing technology difficulty, the present invention uses hot light phasing technique, and an arm of each MZI introduces heat in an array Light adjustable elements change the optical path difference of two-arm in each array element MZI structure, obtain the Output optical power under different optical path differences, Referring to Fig. 6, the hot light phase modulation Waveguide array unit amplification frame diagram of silicon substrate is shown.Minimum optical path difference before introducing hot light phase modulation is ΔL_min, the output power of each output port is P_out(l_i), it introduces the minimum optical path difference after heat is adjusted between MZI interferometer and changes For Δ L_min+ΔL₀, the output power after heat is adjusted is P_out(l_i+iΔL₀).Wave number σ will be changed at this time₀, and then change distinguishable light The central wavelength lambda of spectral limit₀, to realize finer spectrographic detection, emphasis SPECTRAL REGION can be carried out finer Spectrographic detection.The collected data of detector linear array are subjected to Fourier variation, inverting obtains signal spectrum information.

On piece integrates linear array detector 24, for the optical signal of the hot light phase modulation MZI Waveguide array output to be carried out light Electricity conversion output electric signal.

It is integrated for the on piece of linear array detector 24, using heterogeneous or Manufacturing resource method, realizes optical detector and divide The on piece of optical module is integrated.Wherein, the method for isomery is will to meet III-V race's material that detection requires to pass through bonding and optical splitter Part is coupled, and then does device technology again, or the detector chip being ready for directly is bonded with light-splitting device； Directly in one layer of Ge material of device surface selection area epitaxial growth or III-V race's material, then heterogeneous method is usually Device technology is done again.

For heterogeneous or Manufacturing resource, when detector is coupled with waveguide, end coupling or evanescent wave coupling are mainly used It closes, and fully considers the coupling efficiency of two kinds of coupled modes, technique is directed at difficulty, and the influence for dark current etc..

Spectroscopic data processing module 3, the spectral information for being restored to target for electric signal will to be exported.Referring to Fig. 7, show The spectroscopic data processing module figure of specific embodiment according to the present invention.MZI gusts of the spectroscopic data processing module and hot light phase modulation Train wave, which is led, to match, and changes processing signal spectrum information in real time according to hot phase modulation, specifically, by control circuit to hot light phase modulation Control, realize target optical spectrum within the scope of super spectrographic detection.Include:

Noise remove module 31 mainly includes detector for filtering out the background noise signal in spectrographic detection micro-system Dark current output when no light inputs, and the noise due to caused by bias light etc., these interference noises are mainly shown as dry Relate to the undulation in recovery spectrum caused by the burr generated on signal；Recovered light caused by the nonlinear response of detector Spectral amplitude it is non-linear etc..Above-mentioned error be a bit instrument inherently, at any time occur slowly variation, built using instrument Mould and analysis to apparatus function, can correct to a certain extent, such as detector non-linear, instrument linear function etc., Occur at random there are also some errors, but can be detected by the real-time interferogram signal that instrument obtains according to its feature And correction, such as the correction of burr and phase error.

Flat field correction module 32 obtains the response coefficient of optical detector difference pixel for calibrating optical detector, compensation The signal errors as caused by its inhomogeneities；

ADC apodization module 33 restores real spectrum signal for carrying out apodization operation, improves signal-to-noise ratio.Apodization is main It is that cannot obtain whole interference signals for since detector bandwidth limits, have to the collected interference signal of detector The spectroscopic data that inversion integral obtains in limit bandwidth is the convolution of real spectrum information and detector response function, is typically expressed as Rectangular window function can restore real spectrum signal using apodization, improve signal-to-noise ratio.

Spectroscopic data inverting module 34 obtains preliminary spectral information for carrying out spectroscopic data inverting.

Spectral radiometric calibration module 35 carries out the spectral information being finally inversed by for carrying out radiation calibration to spectrum Correction, output spectrum information.

Inverting and calibration are non-constant primarily directed to the response for different wave length such as optical system, waveguide, detector.

Optional replacement of the invention:

In the present invention, optical lens group is preferably used in light collection, but can also use conventional lenses, and advantage exists It is more mature in technology, but disadvantage is that volume is big, and weight is big.

Current-carrying sub switch is preferably used in wave-guide optical switch array 22, but thermo-optical switch can also be used, advantage is Technology maturation, defect are that switching speed is slow；Or electric absorption photoswitch is used, advantage is that extinction ratio is big, and defect is wave Long and polarization dependence is strong.

Hot light phase modulation MZI array is preferably used in super-resolution Subsection spectrum module, but carrier dispersion can also be used Effect phase modulation, advantage are that modulating speed is fast, unrelated with polarization, but defect is to be lost greatly.

In the pre- spectral module of wide spectrum based on cascade MZI filter, waveguide is preferably silicon nitride material, but also optional With polymer material, III-V race's material etc., and adulterates multiple material and realize waveguide low-loss transmission and the filtering of specific light spectral coverage Effect.

Therefore, the invention has the advantages that

(1) present invention proposes the chip-scale super-resolution spectrographic detection micro-system framework based on silicon light integrated technology, by waveguide It is integrated on the same base to cascade broadband spectral filter, slab guide MZI array spectral module and detector, it is super compared to tradition Spectrum investigating system is substantially reduced volume, weight and power consumption, be not necessarily to scan module, can lifting system stability, realize chip The super spectrographic detection of grade.

(2) the cascade architectural framework that the present invention is divided in advance using broadband spectral and waveguide MZI array spectral is finely divided, can It realizes big spectrographic detection range and more high spectral resolution spectrographic detection, and there is preferable spectral coverage expansion.

(3) present invention is proposed using hot light phasing technique on the basis of waveguide array MZI spectrum to each MZI optical path difference is adjusted, and then realizes the ultraspectral resolution detector within the scope of target optical spectrum, is not increasing MZI array Under the premise of quantity, the Output optical power under different optical path differences can get.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that A specific embodiment of the invention is only limitted to this, for those of ordinary skill in the art to which the present invention belongs, is not taking off Under the premise of from present inventive concept, several simple deduction or replace can also be made, all shall be regarded as belonging to the present invention by institute Claims of submission determine protection scope.

Claims (10)

1. A hyperspectral detection microsystem, comprising: The light collection and coupling module is used to collect the radiated light information of the target and couple it to the waveguide splitting chip; The waveguide splitter chip is used to filter the collected radiation, use the MZI array to perform spectral splitting and output electrical signals after photoelectric conversion; The spectral data processing module is used to restore the output electrical signal to target spectral information. 2. hyperspectral detection microsystem according to claim 1, is characterized in that: The light collection and coupling module specifically includes: The optical lens group is coated with anti-reflection and anti-reflection and filter film layer, which is used to receive the radiated light of the target spectrum band and obtain the radiated light with the input spectral bandwidth; A transmission fiber used as an intermediate stage to increase the optical coupling efficiency of radiated light into the optical waveguide; A lateral tapered mode matcher is used for coupling radiation light from the transmission fiber into the waveguide splitting chip. 3. hyperspectral detection microsystem according to claim 2, is characterized in that: In the light collection and coupling module, the coupling efficiency of the radiated light and the transmission fiber in space is expressed as: Wherein a is the ratio of the diameter of the optical lens group to the diameter of the field before the optical fiber mode field propagates back to the optical lens; A _R , A _C are the coupling lens area and the speckle area of the optical lens group, respectively; x ₁ and x ₂ are the spot sizes of the light field incident on the optical lens, and are respectively the spot sizes of the main axis and its vertical direction. 4. hyperspectral detection microsystem according to claim 1, is characterized in that: The waveguide splitting chip specifically includes: Cascaded MZI waveguide filters, waveguide optical switch arrays, thermo-optic phase-modulated MZI arrays, and on-chip integrated linear array detectors. Wherein, cascaded MZI waveguide filtering is used to divide the input spectral bandwidth into n optical channels, each optical channel has a certain optical channel bandwidth; The waveguide optical switch array is used to perform n×1 gating on n optical channels; Thermo-optic phase-modulation MZI array, which is used to perform spatial Fourier splitting of the selected optical channel, and realize fine-tuning of the spectrum through thermo-optic phase modulation; The on-chip integrated linear array detector is used for photoelectric conversion of the optical signal output by the thermo-optic phase-modulated MZI array waveguide to output an electrical signal. 5. hyperspectral detection microsystem according to claim 4, is characterized in that: The cascaded MZI waveguide filter divides an input spectral bandwidth of 500nm into four optical channels with a bandwidth of 125nm. 6. hyperspectral detection microsystem according to claim 4, is characterized in that: The waveguide optical switch array is based on silicon photonic integration technology, using carrier injection MMI (Multimode Interference), by changing the injected carrier concentration, changing the absorption coefficient of the material, thereby sequentially realizing the switching of multiple spectral bands with different central wavelengths . 7. hyperspectral detection microsystem according to claim 4, is characterized in that: The spectral detection resolution expression of the thermo-optic phase-modulated MZI array is: Spectral detection spectrum width: Where λ ₀ is the central wavelength of the resolvable spectral range; n _eff is the effective refractive index of the waveguide; N is the number of MZI arrays; ΔL _min is the minimum length difference between the two arms of the MZI. 8. hyperspectral detection microsystem according to claim 7, is characterized in that: The minimum optical path difference before introducing thermo-optic phase modulation into the MZI array is ΔL _min , the output power of each output port is P _out (l _i ), and the minimum optical path difference between the MZI interferometers after thermal modulation is introduced The path difference is changed to ΔL _min +ΔL ₀ , and the output power after thermal adjustment is P _out (l _i +iΔL ₀ ), thus changing the wave number σ ₀ , and then changing the central wavelength λ ₀ of the resolvable spectral range, achieving a finer Spectral detection. 9. hyperspectral detection microsystem according to claim 4, is characterized in that: The on-chip integrated linear array detector adopts a heterogeneous or heterogeneous integration method to realize on-chip integration. 10. The hyperspectral detection microsystem according to claim 1, characterized in that: The spectral data processing module specifically includes: The noise removal module is used to filter out the background noise signal in the spectrum detection microsystem; Flat field correction mode, used to calibrate the photodetector to obtain the response coefficient of different pixels of the photodetector, and compensate the signal error caused by its inhomogeneity; ADC apodization module, used to perform apodization operation to restore the real spectral signal and improve the signal-to-noise ratio; The spectral data inversion module is used to perform spectral data inversion to obtain preliminary spectral information. The spectral radiometric calibration module is used to radiometrically calibrate the spectrum, correct the spectral information obtained from the inversion, and output the spectral information.