CN1763271A - The high light yield crystal of lead tungstate and the growth method thereof of zwitterion codope simultaneously - Google Patents

Abstract

The present invention relates to decay the soon preparation method of plumbous tungstate scintillation crystal of a kind of high light yield that utilizes the codope simultaneously of improved Bridgman-Stockbarge method for growing zwitterion, belong to field of crystal growth.Use Technology provided by the invention can overcome raw material and doping agent evaporable problem in the zwitterion codope PWO crystal growing process, grow the zwitterion codope PWO crystal that photoyield reaches BGO crystalline 7.3%.The present invention adopts PbF ₂And Y ₂O ₃Or BaF ₂And Y ₂O ₃As doping agent, doping is respectively 600-1000ppm (at%) and 100-300ppm (at%), uses the platinum crucible growth, and the crucible sealing is with the volatilization of control raw material and doping agent, and the shape of crucible and size are with the shape of required growing crystal and size and different.With the present invention can grow simultaneously 2,6 or 28 high light yield crystal of lead tungstate, be suitable for producing in enormous quantities.

Description

The high light yield crystal of lead tungstate and the growth method thereof of zwitterion codope simultaneously

Technical field

The present invention relates to the high light yield crystal of lead tungstate and the growth method thereof of the codope simultaneously of a kind of zwitterion, this is a kind ofly to utilize that improved Bridgman-Stockbarge method for growing is decayed soon, the method for high light yield zwitterion double-doped lead tungstate crystal or rather.Belong to field of crystal growth.

Background technology

Early 1990s is along with the rise of the study of high energy physics project of exploring ultimate particle, plumbous tungstate PbWO ₄(be called for short PWO) crystal has obtained using widely in this field with characteristics such as its high-density, high absorption coefficient, short radiation length, high irradiation hardness and fast decay of luminescence.Yet, the shortcoming of the photoyield that the PWO crystal is low (every million-electron-volt produce photoelectron number) has seriously limited its application beyond in the high energy field, how to improve PWO crystalline photoyield to widen its Application Areas, especially become one of focus of crystal of lead tungstate research in recent years in the application aspect the positron emission computerized tomography medical imagings such as (hereinafter to be referred as PET).Along with the development of location-sensitive photomultiplier (PS-PMT),, will can be used for PET device if PWO crystalline photoyield can be brought up to more than 3 times of the pure PWO crystalline (reach BGO about 8%).With at present captured PET and compared with the BGO crystal of the scintillator 50% above market share, use the PWO crystal of high-density and short attenuation length can make the linear length of detector of PET system reduce approximately half, make detector in a sizable effective field of view (FOV), keep better spatial resolution, can bring into play simultaneously the fast luminous advantage of PWO again, improve the temporal resolution of PET equipment.In addition, PWO crystalline low cost also will make the cost of PET equipment reduce greatly.If high light yield PWO crystal is used for medical PET device,, thereby have a tremendous social and economic benefits the market share that obtains about 30%.Therefore, the PWO crystal as the detector scintillation crystal, enjoys attention in the medical imaging field in recent years.

The main method that obtains at present PWO crystal high light yield in the world is to mix by metallic cation, and growth method is a crystal pulling method.Owing to adopt the easy and PWO crystallo-luminescence center (WO of cation doping ₄) ^2-Produce concentration quenching and to suppress the PWO crystalline luminous, perhaps when improving PWO crystal photoyield, introduce luminous slow component, be unfavorable for the raising of PET equipment temporal resolution.Though grown the Mo/Cd/Sb three doping PWO crystal that the interior photoyield of 100ns is about 46p.e/MeV in the world, gained PWO crystallo-luminescence decay is slack-off, the emission wavelength red shift, crystalline repeatability is very poor, can't be used for the PET test.Therefore the fast decay of growth, high light yield PWO crystalline key are the selections of doping agent; Another important problem is the volatilization problem of raw material and doping agent, PbO and WO under the high temperature fused state ₃All volatile, when mixing fusing point than lower anion doped dose of PWO crystal, the volatile ratio raw material of doping agent is more serious, and therefore the how volatilization of controlled doping agent and raw material makes that ion doping process also is the problem that must solve smoothly; In addition, because lead and tungsten all are heavy metals, are toxic substance that working for a long time to exist the danger of chronic lead poisoning, therefore must take corresponding technical measures to guarantee personnel safety and to reduce environmental pollution under this atmosphere.

Summary of the invention

The object of the invention is to provide the high light yield crystal of lead tungstate and the growth method thereof of a kind of zwitterion codope simultaneously, with the fast decay of growing, high light yield PWO crystal is purpose, introduce problems such as luminous slow component and volatility of raw material at PWO crystal photoyield is low with existing doping, the present invention adopts PbF ₂Or BaF ₂And Y ₂O ₃As doping agent, reach the two purposes of mixing of zwitterion; Take the volatilization of corresponding technical measures control raw material and doping agent; Adopt the above-mentioned PWO crystal of improved Bridgman-Stockbarge method for growing.

Synthetic, the growth apparatus of raw material of the present invention, doping PWO crystal growth.

One, the polycrystal ingot is synthetic

Employing purity is 99.99% PbO and WO ₃Powder is a starting raw material, presses PbO and WO ₃Mole ratio is 1: 1 accurate proportioning of stoichiometry component, thorough mixing is even, pack into then in the platinum crucible, in stove, be heated to 900-1000 ℃, be incubated 30-60 minute and make it to take place solid state reaction, in the reaction process in stove aerating oxygen be warming up to 1200 ℃ of fusions 30 minutes then to prevent non-metering volatilization, make it homogenize, again melt is injected fast platinum lining mould and cast the polycrystal ingot.

Two, seed crystal is prepared

Selecting superior in quality PWO crystal, is＜001 through the X-ray orientation device accurate pointing 〉, the cutting fine grinding, the shape of seed crystal is consistent with the crucible shape, and radial dimension highly is 50-70mm than the little 0.5-1mm of crucible.Cylindrical, rectangular cylindricality that crucible is shaped as, hexagon or other are used required arbitrary shape according to crystal, and it is identical with the crucible shape to grow crystal shape.

Three, growth crucible

Dystectic precious metal is selected in crystal growth for use, and as a kind of as crucible material in platinum, ruthenium, iridium and the rhodium, but platinum (Pt) crucible is the most frequently used a kind of.Platinum through the melting physical purification, forge, compressing tablet, be processed into the crucible of required growing crystal size and dimension, its length is generally 1.6 times of required growing crystal.Platinized platinum thickness is generally between 0.10-0.15mm, after crucible uses, through refining again and can being repeatedly used.Before crucible uses through the gas leak detection (being preferably helium leak test) of certain pressure, behind the crucible of at every turn polycrystal ingot and seed crystal being packed into, sealed crucible.

Four, growth apparatus

Stove liner and lagging material use alumina light-weight brick and aluminum silicate fiber, and heating element is made up of four or two globarss or Si-Mo rod, adopts platinum-rhodium thermocouple to control furnace temperature by the accurate controller of JWT-702, monitors crystal growth with platinum rhodium thermocouple simultaneously.Crystalline growth velocity drives speed change gear by small machine and realizes that adjustable constant rate of speed decline crucible controls.The growth apparatus structure as shown in Figure 1, 2.

Five, crystal growth

1. mol is consisted of PbO: WO ₃=1: 1 polycrystal ingot is incorporated with in the end platinum crucible, adds the PbF of 600-1000ppm (at%) ₂Or BaF ₂And the Y of 100-300ppm (at%) ₂O ₃Doping agent reinstalls seed crystal and sealed crucible.This shows that adulterated negatively charged ion of the present invention is F ^-Ion, it is with PbF ₂Or BaF ₂Form adds, and described adulterated positively charged ion is Pb or Ba and Y, and it is with PbF ₂Or BaF ₂And Y ₂O ₃Form adds, employed PbF ₂Or BaF ₂And Y ₂O ₃Purity is 99.99%.

2. the pottery of above-mentioned platinum crucible being packed into draws in the following pipe, therebetween the burnt Al in space ₂O ₃Powder is filled.

3. furnace temperature is risen to after 1150-1250 ℃ through 80-120 ℃ of speed per hour, be incubated about 4 hours, rise gradually then and draw pipe down, the raw material in the precious metal crucible is melted gradually, until all being melt into melt.When drawing down pipe and rise to crystal growth interface and be in the stove predetermined position, the also fusion of seed crystal top, can carry out crystal growth this moment, and the growth district thermograde is 20-30 ℃/cm.

4. descend with 0.4-0.6mm/ hour speed and draw pipe down, melt is constantly cooled off, crystalline growth becomes monocrystalline gradually above seed crystal.

5. after growth is finished, descend or naturally cool to room temperature with 50 ℃ of/hour speed.

Because the present invention adopts the moon (fluorion) cation doping system, make doping PWO crystal photoyield under the situation of the fast component proportion of the basic pure PWO crystal of maintenance reach BGO crystalline 7.3%.Owing to raw material and seed crystal are sealed in the crucible, have reduced PbO, WO effectively ₃Volatilization with doping agent.In addition, adopt high-density polycrystal ingot, the growth furnace of special construction, with two heating bars is thermal source, grow doping PWO crystal under the growth conditions of formulating, and growth temperature field is stable, radially the temperature ladder is little for crystal, therefore the crystalline thermal stresses is little, has reduced the crystalline cracking.And can realize directed growing crystal in batches by desired shape and size, a stove 28 crystal of can growing simultaneously.

Use grow doping PWO crystal of the present invention to reach: 1. photoyield height; 2. decay of luminescence is fast; 3. yield rate height; 4. dopant distribution is even, the crystal property unanimity; 5. technology is simple and convenient; 6. cost is low; 7. human body and environmentAL safety coefficient improve; 8. the purpose that is suitable for growth in enormous quantities.

The present invention is applicable to the PWO crystal of the various size that the medical PET of growth (position emissron tomography instrument) detector required and the high energy physics electromagnetic calorimeter is used.

Description of drawings

Fig. 1 is growth device structure sectional view.

Fig. 2 is for drawing pipe interior profile structure iron down among Fig. 1.

Fig. 3 is the zwitterion codope simultaneously PWO crystalline x-ray excited spectral line of emission, and abscissa is a wavelength, and unit is nm, and ordinate is an emissive porwer.Table 1 is the data of the PWO crystal regulating YIN and YANG ion codope PWO crystal photoyield of not mixing, and photoyield unit is the photoelectron number that every million electron volts produces.

1. bodies of heater, 2. heating elements 3. draw 5. times descending mechanisms of pipe 4. alumina light-weight bricks down among the figure, 6. aluminum oxide powder, 7. platinum crucible, 8. thermopair, 9. crystal 11. seed crystals 12. through metals of melting charge 10. growths

Embodiment

By following embodiment to further specify substantive distinguishing features of the present invention and obvious improvement.

Embodiment 1

1. purity is 99.99% high-purity PbO and WO ₃Powder is accurately prepared by stoichiometry, makes high fine and close PWO polycrystal ingot in platinum crucible after the fusion;

2. be the crucible that the individual layer platinum sheet of 0.12mm is made φ 25 * 400mm by thickness;

3. be oriented to＜001, the monocrystalline that is of a size of φ 24.5 * 65mm is made seed crystal;

4. with PbF ₂And Y ₂O ₃As doping agent, raw material packed into adds the PbF of 700ppm (at%) behind the platinum crucible ₂And the Y of 300ppm (at%) ₂O ₃Doping agent installs seed crystal then, the sealing crucible;

5. the platinum crucible that raw material and seed crystal will be housed is packed into and is drawn pipe down;

6. with 80 ℃/hour speed furnace temperature is raised to 1150 ℃, is incubated 4 hours, promote gradually again and draw pipe down, treat the fusing of whole raw materials and seed crystal top after, be incubated 2 hours again, move down with the 0.5mm/ speed at one hour rating then and draw pipe down, the growth temperature gradient is 20-30 ℃/cm;

7. growth ending is cut off the electricity supply, and naturally cools to room temperature, takes out crystal;

8. present embodiment one stove 2 PWO crystal of can growing.

Embodiment 2

1. the WO after high-purity PbO and the roasting ₃Accurately prepare by stoichiometry, make high-compactness PWO polycrystal ingot after the fusion;

2. used thickness is 0.14mm, is of a size of the square platinum crucible of 25 * 25 * 450mm;

3. be oriented to＜001, size is that the monocrystalline of 24.5 * 24.5 * 65mm is made seed crystal.

4. with BaF ₂And Y ₂O ₃As doping agent, the polycrystal ingot packed into adds the BaF of 900ppm (at%) behind the platinum crucible ₂And the Y of 100ppm (at%) ₂O ₃Doping agent installs seed crystal then, the sealing crucible.

5. the control furnace is 1200 ℃, descends with 0.4mm/ hour speed and draws pipe down, and the growth temperature gradient is 20-30 ℃/cm;

6. the crystal after the growth can directly be processed without aftertreatment.

7. 6 crystal of this example one stove growth.

8. other condition is with example 1.

Embodiment 3

In this example, furnace is controlled at 1250 ℃, and crucible is two kinds of 25 * 25 * 475mm and φ 25 * 475mm, 28 crystal of stove growth, and other condition is identical with embodiment 1 or 2.

Grow codope crystalline photoyield and pure PWO crystal comparative result list in table 1.

Table 1

Crystal	Photoyield (p.e/MeV)	％(BGO)
			PWO	23	～2.8％
PWO:PbF 2:Y 2O 3 PWO:BaF 2:Y 2O 3	60	～7.3％

Claims (9)

1, the crystal of lead tungstate of a kind of zwitterion codope simultaneously is characterized in that

1. adulterated negatively charged ion is the F ion, and adulterated positively charged ion is Pb ^{+ 2}Or Ba ^{+ 2}In a kind of and Y ^{+ 3}Ion;

2. the yin, yang ion is with PbF ₂Or BaF ₂And Y ₂O ₃Form adds;

3. doped P bF ₂Or BaF ₂The atomic wts percentage composition is 600-1000ppm, adulterated Y ₂O ₃The atomic wts percentage composition is 100-300ppm.

2, by the crystal of lead tungstate of the described zwitterion of claim 1 codope simultaneously, it is characterized in that used PbF ₂, BaF ₂And Y ₂O ₃Purity be 99.99%.

3, by the crystal of lead tungstate of the described zwitterion of claim 1 codope simultaneously, it is characterized in that PbF as doping agent ₂The atom percent by weight be 700ppm, Y ₂O ₃The atom percent by weight be 300ppm.

4, by the crystal of lead tungstate of the described zwitterion of claim 1 codope simultaneously, it is characterized in that BaF ₂Adding atom percent by weight be 900ppm, Y ₂O ₃The atom percent by weight be 100ppm.

5, the method for the crystal of lead tungstate of growth zwitterion as claimed in claim 1 codope simultaneously comprises that raw material is synthetic, growthing process parameter is selected, and it is characterized in that concrete growth step is:

(1) the polycrystal ingot is synthetic

(a) adopting purity is 99.99% high-purity PbO and WO ₃Powder;

(b) mol for preparing is consisted of PbO: WO ₃=1: 1 powder is loaded in the platinum crucible, is heated to 900-1000 ℃ of insulation and makes it to produce solid state reaction in 30 minutes, simultaneously logical oxygen in crucible, continue to be warmed up to 1200 ℃ to all fusions, insulation makes it homogenizing half an hour, melt is injected platinum lining mould again, casts the polycrystal ingot;

(2) crucible is selected for use

Select any precious metal crucible in platinum, ruthenium, iridium and the rhodium for use, the shape of crucible is consistent with the shape of growing crystal, and length is 1.6 times of required growing crystal length;

(3) growth apparatus

Heating element adopts Si-Mo rod, is in the air atmosphere inside and outside the growth furnace;

(4) crystal growth

(a) adopt be oriented to＜001 monocrystalline make seed crystal, the radial dimension of seed crystal is than the little 0.5-1mm of crucible;

(b) step (1) synthetic polycrystal ingot is incorporated with in the precious metal crucible at the end, adding atomic wts per-cent is the PbF of 600-1000ppm ₂Or BaF ₂With atomic wts per-cent be the Y of 100-300ppm ₂O ₃Doping agent reinstalls seed crystal and sealed crucible;

(c) the golden crucible after the above-mentioned sealing is packed into pottery draws down in the pipe, therebetween the burnt Al in space ₂O ₃Powder is filled;

(d) furnace temperature is risen to after 1150-1250 ℃, be incubated about 4 hours, rise gradually then and draw pipe down, the raw material in the precious metal crucible is melted gradually, until all being melt into melt; When drawing down pipe and rise to crystal growth interface and be in the stove predetermined position, the also fusion of seed crystal top, carry out crystal growth this moment, and the growth district thermograde is 20-30 ℃/cm;

(e) draw pipe down with speed decline in 0.4-0.6mm/ hour, melt is constantly cooled off, crystalline growth becomes monocrystalline gradually above seed crystal;

(f) after growth is finished, descend or naturally cool to room temperature with 50 ℃ of/hour speed.

6, press the growth method of the crystal of lead tungstate of the described zwitterion of claim 5 codope simultaneously, what use always when it is characterized in that growing crystal is platinum crucible; The crucible wall thickness is 0.10-0.15mm.

7, by the growth method of the crystal of lead tungstate of the described zwitterion of claim 5 codope simultaneously, to rise to 1150-1250 ℃ temperature rise rate be 80-120 ℃/hour to furnace temperature when it is characterized in that crystal growth.

8, press the growth method of the crystal of lead tungstate of the described zwitterion of claim 5 codope simultaneously, it is characterized in that selected seed crystal height is 50-70mm; Its shape with select for use the crucible shape consistent.

9, press the growth method of the crystal of lead tungstate of the described zwitterion of claim 5 codope simultaneously, it is a kind of to it is characterized in that described crucible is shaped as in cylindrical, rectangular cylindricality and the hexagon, and the crystal shape of growth is identical with crucible.

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