CN204718958U - A kind of multi-pulse laser induced breakdown spectroscopy measuring system - Google Patents

Abstract

The utility model discloses a kind of multi-pulse laser induced breakdown spectroscopy measuring system, utilize pulse producer Control timing sequence, external trigger is carried out to laser pulse and spectra collection; Simultaneously, achieve multiple-pulse by adopting separate unit laser instrument to export, reduce dipulse or multi-pulse laser induced breakdown spectroscopy measuring system builds cost, improve Laser-induced Breakdown Spectroscopy signal measurement quality, in addition, and output laser pulse is conllinear multiple-pulse, extra beam path alignment and focusing need not be carried out.

Description

A kind of multi-pulse laser induced breakdown spectroscopy measuring system

Technical field

The utility model relates to laser technology field, particularly relates to a kind of multi-pulse laser induced breakdown spectroscopy measuring system.

Background technology

Multi-pulse laser induced breakdown spectroscopy exports two and above laser pulse carries out ablation to sample when induced with laser produces plasma.Compared with monopulse technology, multi-pulse laser induced breakdown spectroscopy can not only Enhanced feature spectral signal intensity, improve the signal-to-background ratio of detection sensitivity and spectrum, reduce detection limit, the characteristic spectrum simultaneously produced has less relative standard deviation, and this makes to which give higher accuracy and repeatability.

The multiple-pulse output intent based on separate unit laser instrument of the existing LIBS of being applied to technology mainly contains two kinds.One adopts beam splitter to carry out beam splitting in conjunction with light path turnover delay acquisition pulse-pair output effect, device adopts beam splitter that shoot laser is divided into two bundles, wherein beam of laser directly focuses on sample surfaces by forthright optical transmission apparatus, another beam of laser reaches through bypass optical transmission apparatus adjustment Laser Focusing direction that restraint laser focus position with first identical, the two common excited sample generation plasma signal.Two bundle laser delay time lags are determined by the two optical path difference.Another kind adopts times frequency module of separate unit laser instrument in conjunction with fiber delay time, utilizes the multi-wavelength output characteristic of Nd:YAG laser instrument, and the mixed light being obtained fundamental frequency 1064nm and two frequency multiplication 532nm by frequency-doubling crystal is exported.The 532nm laser vertical sample surfaces incidence exported is used for ablation sample, utilize 1064nm laser incident from parallel sample surface direction, form the pulse laser induced breakdown spectral detection system of Orthogonal Double, its interpulse time delay is realized by heavy caliber quartz glass Optical Fiber Transmission 1064nm laser.But these two kinds of methods all need to carry out beam splitting to Output of laser, reduce single pulsed laser energy, also need extra light path arrangement, add laser source system complexity simultaneously.

Utility model content

The purpose of this utility model is to provide a kind of multi-pulse laser induced breakdown spectroscopy measuring system, reduces system building cost, improves spectral quality, and output laser pulse is conllinear multiple-pulse, need not carry out extra beam path alignment and focusing.

The purpose of this utility model is achieved through the following technical solutions:

A kind of multi-pulse laser induced breakdown spectroscopy measuring system, comprising: pulse producer, high-voltage pulse module, laser instrument, laser pulse processing module and spectrometer;

Described pulse producer is connected with high-voltage pulse module and spectrometer respectively, and described high-voltage pulse module is connected with laser instrument, and described laser pulse processing module one end is connected with described laser instrument, and the other end is connected with described spectrometer.

This system also comprises: computing machine, and this computing machine is connected with pulse producer and spectrometer respectively.

The technical scheme provided as can be seen from above-mentioned the utility model, the multiple-pulse output that Q realizes separate unit laser instrument is reconstituted by adopting many high-tension pulses, reduce multi-pulse laser induced breakdown spectroscopy system building cost, improve Laser-induced Breakdown Spectroscopy signal measurement quality, in addition, and output laser pulse is conllinear multiple-pulse, extra beam path alignment and focusing need not be carried out.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

The structural representation of a kind of multi-pulse laser induced breakdown spectroscopy measuring system that Fig. 1 provides for the utility model embodiment;

The high-voltage pulse module principle figure that Fig. 2 provides for the utility model embodiment;

The measurement procedure figure of a kind of multi-pulse laser induced breakdown spectroscopy measuring system that Fig. 3 provides for the utility model embodiment;

The schematic diagram of a kind of multi-pulse laser induced breakdown spectroscopy measuring process that Fig. 4 provides for the utility model embodiment;

The pulse-pair output oscillogram measured based on method of the present utility model that Fig. 5 provides for the utility model embodiment;

The carbon steel sample monopulse that Fig. 6 provides for the utility model embodiment and double-pulse laser induced breakdown spectral light spectral coverage comparison diagram.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on embodiment of the present utility model, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to protection domain of the present utility model.

Embodiment

The utility model embodiment provides a kind of multi-pulse laser induced breakdown spectroscopy measuring system, as shown in Figure 1, it mainly comprises: pulse producer (Pulse Generator), high-voltage pulse module (HVP Module), laser instrument (Laser), laser pulse processing module and spectrometer (Spectrometer);

Described pulse producer is connected with high-voltage pulse module and spectrometer respectively, and described high-voltage pulse module is connected with laser instrument, and described laser pulse processing module one end is connected with described laser instrument, and the other end is connected with described spectrometer.

Described laser pulse processing module comprises: catoptron (Mirror), condenser lens (Focus lens) and collection lens (Collection);

The laser pulse that laser instrument exports focuses to sample (Sample) surface by condenser lens after catoptron turnover light path, and the plasma signal light produced is by gathering lens focus.

This system also comprises: the computing machine (Computer) be connected with described pulse producer and spectrometer respectively.

Exemplary, in the utility model embodiment, the described pulse producer of development that adopts can use pulse producer ZKG027 to realize, and carries out sequential control, carry out external trigger to laser pulse and spectra collection by this pulse producer ZKG027.Xenon lamp trigger pip voltage 12V, pulse width 500ns, rising edge triggers; High-voltage pulse signal exports 3, voltage 5V, recurrent interval 20 μ s, and pulse width is respectively 200ns and 500ns; First high-voltage pulse signal is 280 μ s apart from xenon lamp trigger pip key mapping.Spectrometer model can be Avaspec-USB2, its trigger pip 1, voltage 5V, pulsewidth 500ns, and rising edge triggers.

In the utility model embodiment, for exporting the high-voltage pulse module principle figure of high voltage pulse as shown in Figure 2.First, what received pulse generator sent comprises time series pulse signals, then, carries out signal isolation and combines time series pulse signals, then is amplified and export corresponding high-voltage pulse by the time sequential pulse after combination.

For the ease of understanding, below in conjunction with accompanying drawing 3-6, the measuring process of native system and principle are described in detail.

As shown in Figure 3, be the measuring process of native system, it mainly comprises the steps:

Step 31, pulse producer is set exports pulse number, pulsewidth and time sequence parameter, send corresponding pulses signal by pulse producer, trigger high-voltage pulse module and spectrometer is started working.

The sequential of described setting comprises: the time interval between xenon lamp triggering signal frequency and triggered time, time delay between xenon lamp trigger pip and first high-voltage pulse signal, high-voltage pulse signal, and spectrometer integrated delay time (pulse producer is sent to the time interval between the pulse signal of high-voltage pulse module and the pulse signal being sent to spectrometer);

Described pulse number is one or more.

Step 32, after described high-voltage pulse module receives the pulse signal that pulse producer sends, described high-voltage pulse module exports an xenon lamp trigger pip and triggers xenon lamp, produces single lamp pumping signal; Apply high-voltage pulse signal according to the pulse number arranged, pulsewidth and time sequence parameter to adjusting Q crystal again, realize within an xenon flash lamp pumping cycle, export the laser pulse of set pulse number successively.

Step 33, after described spectrometer receives the pulse signal that pulse producer sends, spectrometer gathers the laser induced plasma light signal of pulse number set by producing, and obtains corresponding multi-pulse laser induced breakdown spectroscopy signal.

Specifically, the laser pulse of output focuses to sample surfaces by condenser lens after catoptron turnover light path, and the plasma signal light produced is by gathering lens focus; After described pulse producer output packet contains the pulse signal of default sequential, pulse number and width parameter, postpone a period of time, output pulse signal, to spectrometer, triggers spectrometer and carries out spectroscopic acquisition.

In addition, pre-set pulse producer by computing machine in the utility model embodiment and export pulse number, pulsewidth and time sequence parameter; Or will export pulse number and width parameter, and the time sequence parameter that triggering spectrometer is started working is directly fixed in pulse producer, the time sequence parameter that high-voltage pulse module work is relevant is solidificated in high-voltage pulse module.

It is emphasized that, in the utility model embodiment, the time interval between high-voltage pulse, high-voltage pulse width, high-voltage pulse, and time delay can be optimized according to different laser instruments between xenon lamp trigger pip and first high-voltage pulse signal, concrete numerical value can set according to actual conditions.

Further, be described in detail below in conjunction with the process of a concrete example to above-mentioned steps 31 ~ step 33.

In this example, as shown in Figure 4, the xenon lamp triggered time is T _q, between xenon lamp trigger pip and first high-voltage pulse signal, time delay is designated as T _{q, Trig}, between high-voltage pulse signal, the time interval is designated as T _trig, spectrometer integral time is T _specInt, integrated delay time is t _spectrometer, concrete flow process is as follows:

1, computing machine clamp-pulse generator send include default sequential, pulse number and width parameter pulse signal to high pressure pulse module;

2, high-voltage pulse module exports a pulse signal T _qtrigger xenon lamp, produce the single lamp pumping cycle;

3, through set T time delay _{q, Trig}after, high-pressure modular sends 3500V high-voltage signal V _threshlodcarry out tune Q to export, namely produce laser pulse Laser1;

4, again through the time interval T of setting _trigafter, high-pressure modular sends 3500V high-voltage signal V again _threshlodcarrying out second time adjusts Q to export, and namely produces second laser pulse Laser2;

5, while tune Q exports, laser pulse focuses to sample surfaces by condenser lens after catoptron turnover light path, and the plasma signal light produced is by gathering lens focus.At t _spectrometermoment pulse producer sends trigger action spectrometer and carries out spectroscopic acquisition, and integral time is T _specInt, measured spectral signal transfers to computer and carries out subsequent analysis and process.

6, repeat step 2-step 5 and can realize continuous print double-pulse laser induced breakdown spectral measurement.

In this example, PIN photoelectric detector and oscillograph can be utilized to combine and to carry out the test of laser instrument pulse-pair output, Figure 5 shows that the laser pulse shape that the method adopting the utility model embodiment to provide exports.During LIPS spectrum test, laser pulse frequency is 1Hz, oscillator stage voltage 900V, amplifier stage voltage 500V, and spectrometer 20ms integral time, without integrated delay time.Fig. 6 is carbon steel sample monopulse and the contrast of double-pulse laser induced breakdown spectral light spectral coverage, and wherein, the curve with high peaks is double-pulse laser curve, and the curve with lower peak value is single-pulse laser curve.

The such scheme of the utility model embodiment, utilizes pulse producer Control timing sequence, carries out external trigger to laser pulse and spectra collection; Meanwhile, achieve multiple-pulse by adopting separate unit laser instrument and export, reduce multi-pulse laser induced breakdown spectroscopy system building cost, improve Laser-induced Breakdown Spectroscopy signal measurement quality, in addition, and output laser pulse is conllinear multiple-pulse, need not carry out extra beam path alignment and focusing.

Those skilled in the art can be well understood to, for convenience and simplicity of description, only be illustrated with the division of above-mentioned each module, in practical application, can distribute as required and by above-mentioned functions and be completed by different functional modules, inner structure by system is divided into different functional modules, to complete all or part of function described above.

The above; be only the utility model preferably embodiment; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claims.

Claims (2)

1. a multi-pulse laser induced breakdown spectroscopy measuring system, is characterized in that, comprising: pulse producer, high-voltage pulse module, laser instrument, laser pulse processing module and spectrometer;

Described pulse producer is connected with high-voltage pulse module and spectrometer respectively, and described high-voltage pulse module is connected with laser instrument, and described laser pulse processing module one end is connected with described laser instrument, and the other end is connected with described spectrometer.

2. system according to claim 1, is characterized in that, this system also comprises: computing machine, and this computing machine is connected with pulse producer and spectrometer respectively.