CN109060203A - Intrinsical Fabry-Perot pull sensing device and its manufacturing method based on Modulation Based on Optical Fiber Fused Taper - Google Patents

Abstract

The present invention proposes a kind of Intrinsical Fabry-Perot pull sensing device and its manufacturing method based on Modulation Based on Optical Fiber Fused Taper.The device inscribes two refraction index changing regions by femtosecond pulse laser inside the cone waist of Modulation Based on Optical Fiber Fused Taper and forms mirror surface, obtains different pull sensing sensitivity by changing Modulation Based on Optical Fiber Fused Taper cone waist diameter.When senser element is by external tensile force, minor change can all occur for chamber length, core diameter and the fiber core refractive index of Modulation Based on Optical Fiber Fused Taper Intrinsical Fabry-Pérot sensor, so that the optical path difference of optical fiber Intrinsical Fabry-Pérot sensor changes, drift motion observation external tensile force variation occurs so as to cause reflectance spectrum.This device combines the thin right cone waist characteristic of Modulation Based on Optical Fiber Fused Taper and optical fiber Intrinsical Fabry-Perot high-resolution sensing characteristics, not only increases sensing sensitivity, resolution ratio, response speed and the reliability of fiber optic sensing device and is with a wide range of applications.

Description

Intrinsical Fabry-Perot pull sensing device and its manufacture based on Modulation Based on Optical Fiber Fused Taper Method

Technical field

The invention belongs to optical fibre device production fields, and in particular to a kind of Intrinsical Fabry-Perot based on Modulation Based on Optical Fiber Fused Taper Roller force sensing device and its manufacturing method.

Background technique

In recent years, optical fiber stress sensor is widely used in the safety of the great building such as dam, tunnel, Longspan Bridge In health detection, meanwhile, reliable safety detection is carried out with very big difficulty to such great building.It is built as to large size Build safety measurement important parameter, high-sensitivity measurement is always a difficult point of optical fibre device production field, it is main because Element is: optical fiber stress sensor has that manufacture craft is complex, size is larger, at high cost, optical fiber sensitivity is more low asks Topic.Therefore, the optical fiber stress sensor based on Mach-Zender interferometer and based on photonic crystal fiber is with respect to manufacture craft Simply, size is small, at low cost, high sensitivity.

There are optical fiber sensitivity to be difficult to improve, temperature drift is big etc. asks based on the strain transducer of fiber bragg grating for tradition Topic；Strain transducer based on Mach-Zender interferometer, which generally requires, uses optical fiber dislocation welding and loop detection system, Processing is difficult to control；Strain transducer higher cost based on photonic crystal fiber.As full optical fiber interference type sensor, optical fiber Intrinsical Fabry-Perot device sensors are that measurement is realized based on simple optical fiber two-beam interference.When external environment such as temperature When the factors such as degree, refractive index, stress, strain and magnetic field change, the phase of light beam changes.Compared to other kinds of light Fiber sensor part, optical fiber Intrinsical Fabry-Perot device is detected with high resolution, easily, multiplexing capacity is strong, anti-interference ability The advantages that strong.With the emergence and development of femtosecond laser technology, the advantage of ultrashort laser pulse and high peak intensities makes it micro- Manufacture field is widely used.When femtosecond laser beam focuses on progress micro Process on fiber core, can precisely it control Working position processed and region, and machining area very little can optimize optical fiber Intrinsical Fabry-Perot device sensors significantly Performance.Meanwhile Modulation Based on Optical Fiber Fused Taper is as a kind of important foundation optical fibre device, it is carefully straight with special tapered transmission line structure and cone waist Characteristic, when cone waist diameter is sufficiently small, stress sensing sensitivity will be obviously improved.

Summary of the invention

It is an object of the invention to improve the stress sensing sensitivity of optical fiber Intrinsical Fabry-Perot device, one is provided Intrinsical Fabry-Perot pull sensing device and its manufacturing method of the kind based on Modulation Based on Optical Fiber Fused Taper.Present invention incorporates optical fiber weldings The thin right cone waist characteristic of cone easily monitors characteristic harmony using the reflectance spectrum wave crest of fiber Fabry-Pérot cavity under a stretching force Peak offset of shaking easily detects characteristic, further improves sensing sensitivity, reliability and the application range of fiber optic sensing device.

The present invention adopts the following technical solutions realization:

A kind of Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper, including single mode optical fiber, pass through heating melting Single mode optical fiber draws out Modulation Based on Optical Fiber Fused Taper, is cone waist in the middle part of Modulation Based on Optical Fiber Fused Taper, and cone waist two sides pass through symmetrical transitional region and connect single mode Optical fiber；Two refraction index changing regions are inscribed in cone waist by femtosecond laser, optical fiber Intrinsical Fabry-Perot pulling force is formed and passes Two reflecting mirrors of sensor.

It in the diameter range of cone waist is two reflecting mirrors of 50-125 μm of place's inscription using femtosecond laser, between two reflecting mirrors Distance range is 100-600 μm, and the pull sensing characteristic under the device is related to cone waist diameter.

A kind of manufacturing method of the Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper, for making The Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper stated, operating procedure are as follows:

1) prepared by Modulation Based on Optical Fiber Fused Taper: before drawing, intercepting the single mode optical fiber of suitable length, 2cm or so is peelled off among single mode optical fiber Coat, and with dehydrated alcohol wiped clean；Then single mode optical fiber is placed in fiber clamp, makes the light for peelling off coat Fibre be in fiber clamp centre, and fixture both sides place each one section of general single mode fiber parallel with prestretching single mode optical fiber with Fixed prestretching single mode optical fiber；Finally by process control tensile speed, tensile elongation and hydrogen flowing quantity, Modulation Based on Optical Fiber Fused Taper is obtained；

2) femtosecond laser inscribes fiber Fabry-Pérot cavity: the optical fiber for peelling off coat being fixed on glass slide, and will carry glass Piece is placed on three-dimensional micro Process platform；The focusing objective len for choosing 50 multiplying powers is monitored by CCD where determining femtosecond laser focus Femtosecond laser is focused on fiber core by position, mobile micro Process platform；Using top-down longitudinal processing method, i.e. optical fiber Moving direction be parallel to the transmission direction of femtosecond laser beam；When processing, femtosecond laser is focused on into fiber core, allows micro- add Work platform first alongzAxis direction moves up, and laser focuses on the lower section of fibre core, then alongzAxis direction moves down and point Electronic shutter is hit, femtosecond laser is made to pass through fibre core, to form internal mirror on fibre core, then edgexAxial cone waist is another Mobile a certain distance is held to inscribe second reflecting mirror；When single mode optical fiber is inscribed, in order to enable refraction index changing region Enough preferably covering uniform and stable distributions of fibre core simultaneously obtain higher intetference-fit strengthening, using 20mW recording power into Row is inscribed, and the distance that micro Process platform moves up and down is respectively 20 μm and 14 μm, and the speed that platform moves up and down is 1 μm/s.

The present invention compared with prior art, has following substantive distinguishing features and remarkable advantage:

1, the advantages of combining both Modulation Based on Optical Fiber Fused Taper device and optical fibre Fabry-perot device is, it can be achieved that high sensitivity, high-resolution The measurement of the stress sensing of rate and fast-response speed.

2, because of the thin right cone waist structure of Modulation Based on Optical Fiber Fused Taper, when the cone waist diameter of Modulation Based on Optical Fiber Fused Taper Fabry-Perot-type cavity is less than 60 μm When, stress sensitivity is 5 times of single mode optical fiber Fabry-Pérot sensor.

Detailed description of the invention

Fig. 1 is that the structure based on the Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper in the present invention is shown It is intended to.

Fig. 2 is that a length of 200 μm of lumen of the present invention of single mode optical fiber Intrinsical Fabry-Perot-type cavity changes with extraneous stress Reflectance spectrum situation.

Fig. 3 is that a length of 400 μm of lumen of the present invention of single mode optical fiber Intrinsical Fabry-Perot-type cavity changes with extraneous stress Reflectance spectrum situation.

Fig. 4 be lumen of the present invention it is 200 μm a length of, 400 μm, 600 μm of single mode optical fiber Intrinsical Fabry-Perot device it is anti- Spectrum is penetrated with stress variation situation.

Fig. 5 is that cone waist diameter is 61 μm in the present invention, the Intrinsical Fabry-Perot of a length of 200 μm of the Modulation Based on Optical Fiber Fused Taper of chamber The reflectance spectrum situation that device changes with extraneous stress.

Fig. 6 is that cone waist diameter is 61 μm in the present invention, the Intrinsical Fabry-Perot of a length of 400 μm of the Modulation Based on Optical Fiber Fused Taper of chamber The reflectance spectrum situation that device changes with extraneous stress.

Fig. 7 is that waist diameter is bored in the present invention for 125 μm, 97 μm, 73 μm, 59 μm, 50 μm, a length of 200 μm of the optical fiber welding of chamber The case where reflection spectrum wavelength changes with extraneous stress is normalized in the Intrinsical Fabry-Perot device of cone.

Specific implementation method

The preferred embodiment of the present invention is simultaneously described with reference to the drawings as follows:

As shown in Figure 1, a kind of Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper, including single mode optical fiber 3, Modulation Based on Optical Fiber Fused Taper is drawn out by heating melting single mode optical fiber 3, is cone waist 1 in the middle part of Modulation Based on Optical Fiber Fused Taper, cone 1 two sides of waist pass through symmetrical mistake It crosses region 2 and connects single mode optical fiber 3；Two refraction index changing regions are inscribed in cone waist 1 by femtosecond laser, form optical fiber Intrinsical Two reflecting mirrors 4 of Fabry-Perot tension sensor.

Two reflecting mirrors 4, two reflecting mirrors 4 are inscribed at the diameter range for boring waist 1 is 50-125 μm using femtosecond laser Between the long range of distance, that is, chamber be 100-600 μm, pull sensing characteristic under the device is related with 1 diameter of waist is bored.

A kind of manufacturing method of the Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper, for making The Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper stated, operating procedure are as follows:

1) prepared by Modulation Based on Optical Fiber Fused Taper: before drawing, intercepting the single mode optical fiber 3 of suitable length, the left side 2cm is peelled off among single mode optical fiber 3 Right coat, and with dehydrated alcohol wiped clean；Then single mode optical fiber 3 is placed in fiber clamp, makes to peel off coat Optical fiber be in the centre of fiber clamp, and place each one section of general single mode parallel with prestretching single mode optical fiber 3 on fixture both sides Optical fiber is to fix prestretching single mode optical fiber 3；Finally by process control tensile speed, tensile elongation and hydrogen flowing quantity, light is obtained Fine pyrometric cone；

2) femtosecond laser inscribes fiber Fabry-Pérot cavity: the optical fiber for peelling off coat being fixed on glass slide, and will carry glass Piece is placed on three-dimensional micro Process platform；The focusing objective len for choosing 50 multiplying powers is monitored by CCD where determining femtosecond laser focus Femtosecond laser is focused on fiber core by position, mobile micro Process platform；Using top-down longitudinal processing method, i.e. optical fiber Moving direction be parallel to the transmission direction of femtosecond laser beam；When processing, femtosecond laser is focused on into fiber core, allows micro- add Work platform first alongzAxis direction moves up, and laser focuses on the lower section of fibre core, then alongzAxis direction moves down and point Electronic shutter is hit, femtosecond laser is made to pass through fibre core, to form internal mirror on fibre core, then edgexAxial cone waist is another Mobile a certain distance is held to inscribe second reflecting mirror；When single mode optical fiber is inscribed, in order to enable refraction index changing region Enough preferably covering uniform and stable distributions of fibre core simultaneously obtain higher intetference-fit strengthening, using 20mW recording power into Row is inscribed, and the distance that micro Process platform moves up and down is respectively 20 μm and 14 μm, and the speed that platform moves up and down is 1 μm/s.

Referring to figs. 2 and 3, long selection chamber is respectively that 200 μm and 400 μm of single mode optical fiber Intrinsical Fabry-Perot is answered Force snesor measures, and stress changes to 1N from 0, acquires a data every 0.1N, obtains the situation of change of reflectance spectrum.With The increase of senser element both ends stress, reflectance spectrum is whole to drift about to long wave length direction.The valley near 1551nm is chosen to carry out Monitoring, wavelength are as shown in Figure 4 with the change curve of sensor both ends stress.Have between reflectance spectrum wavelength change and the variable quantity of stress There is good linear relationship.By being calculated, when the chamber of sensor is 200 μm, 400 μm and 600 μm a length of, stress sensitivity point Not are as follows: 1.322nm/N, 1.336nm/N and 1.382nm/N.

Referring to figs. 5 and 6, the case where trough wavelength near 1565nm and 1574nm is with stress variation is monitored.Work as optical fiber Diameter reduce, in the case where identical extraneous stress, Modulation Based on Optical Fiber Fused Taper Intrinsical Fabry-Perot strain gauge reflectance spectrum Drift value is more than single mode optical fiber Intrinsical Fabry-Perot strain gauge.By being calculated, when the interference wave of sensor At a length of 200 μm and 400 μm, stress sensitivity is respectively 6.669nm/N and 5.984nm/N.

Selected Modulation Based on Optical Fiber Fused Taper cone waist diameter be 125 μm, 97 μm, 73 μm, 59 μm and 50 μm, a length of 200 μm of the optical fiber of chamber Pyrometric cone Intrinsical Fabry-Perot strain gauge carries out sensing experiment, and normalization reflection spectrum wavelength changes with extraneous stress Situation is as shown in Figure 7.In the case where identical interference cavity length, with Modulation Based on Optical Fiber Fused Taper Intrinsical Fabry-Perot strain gauge Bore the reduction of waist diameter, wave length shift gradually increases with extraneous stress slope of a curve, incrementss also with the reduction of radius and Increase.By the comparison of the two, the stress sensitivity of Modulation Based on Optical Fiber Fused Taper Intrinsical Fabry-Perot strain gauge is single mode optical fiber 4 ~ 5 times or so of Intrinsical Fabry-Perot strain gauge.

Claims (3)

1. a kind of Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper, including single mode optical fiber (3), feature It is, Modulation Based on Optical Fiber Fused Taper is drawn out by heating melting single mode optical fiber (3), is cone waist (1) in the middle part of Modulation Based on Optical Fiber Fused Taper, bores waist (1) two sides Single mode optical fiber (3) are connected by symmetrical transitional region (2)；Two refraction index changings are inscribed in cone waist (1) by femtosecond laser Region forms two reflecting mirrors (4) of optical fiber Intrinsical Fabry-Perot tension sensor.

2. the Intrinsical Fabry-Perot pull sensing device according to claim 1 based on Modulation Based on Optical Fiber Fused Taper, feature exist In, using femtosecond laser cone waist (1) diameter range be 50-125 μm place inscription two reflecting mirrors (4), two reflecting mirrors (4) Between distance range be 100-600 μm, pull sensing characteristic under the device is related with waist (1) diameter is bored.

3. a kind of manufacturing method of the Intrinsical Fabry-Perot pull sensing device based on Modulation Based on Optical Fiber Fused Taper, for making basis Intrinsical Fabry-Perot pull sensing device described in claim 1 based on Modulation Based on Optical Fiber Fused Taper, which is characterized in that operation step It is rapid as follows:

1) prepared by Modulation Based on Optical Fiber Fused Taper: before drawing, intercepting the single mode optical fiber (3) of suitable length, peels off among single mode optical fiber (3) The coat of 2cm or so, and with dehydrated alcohol wiped clean；Then single mode optical fiber (3) is placed in fiber clamp, makes to peel off The optical fiber of coat is in the centre of fiber clamp, and parallel with prestretching single mode optical fiber (3) in each one section of fixture both sides placement General single mode fiber is to fix prestretching single mode optical fiber (3)；Finally by process control tensile speed, tensile elongation and hydrogen stream Amount, obtains Modulation Based on Optical Fiber Fused Taper；

2) femtosecond laser inscribes fiber Fabry-Pérot cavity: the optical fiber for peelling off coat being fixed on glass slide, and will carry glass Piece is placed on three-dimensional micro Process platform；The focusing objective len for choosing 50 multiplying powers is monitored by CCD where determining femtosecond laser focus Femtosecond laser is focused on fiber core by position, mobile micro Process platform；Using top-down longitudinal processing method, i.e. optical fiber Moving direction be parallel to the transmission direction of femtosecond laser beam；When processing, femtosecond laser is focused on into fiber core, allows micro- add Work platform first alongzAxis direction moves up, and laser focuses on the lower section of fibre core, then alongzAxis direction moves down and point Electronic shutter is hit, femtosecond laser is made to pass through fibre core, to form internal mirror on fibre core, then edgexAxial cone waist is another Mobile a certain distance is held to inscribe second reflecting mirror；When single mode optical fiber is inscribed, in order to enable refraction index changing region Enough preferably covering uniform and stable distributions of fibre core simultaneously obtain higher intetference-fit strengthening, using 20mW recording power into Row is inscribed, and the distance that micro Process platform moves up and down is respectively 20 μm and 14 μm, and the speed that platform moves up and down is 1 μm/s.