Post on 25-Feb-2016
description
UV i VUV spectroscopy of BaF2:Ce crystals
(Report from Hasylab experiments) Andrzej J. Wojtowicz
IF UMK
Optoelectronics Seminar, Oct. 26, 2009
Hasylab experiments, July 2009 and Aug. 2007
Experimental teams:2009: 2007:Piotr Palczewski, Sebastian JanusMarek Różański, Kinga Jastak Marcin Witkowski Robert TheisAndrzej Wojtowicz Andrzej Wojtowicz
OUTLINEExperimental set-up
SamplesSome physics:
localized and band states of charge carriers
UV i VUV spectroscopy of BaF2:Ce crystals:
results and discussionSummary
OUTLINEExperimental set-up
SamplesSome physics:
localized and band states of charge carriers
UV i VUV spectroscopy of BaF2:Ce crystals:
results and discussionSummary
Superlumi station, beamline I, Doris III ring, Hasylab,
DESY, Hamburg, Germany
Prof. G. Zimmerer i Dr Aleksei KotlovFunding:
UE (via Hasylab; large experimental facilities), IF UMK
Superlumi station, technical details
Excitation: synchrotron, McPherson monochromator
(primary) , grating (spherical mirror) 2 m, 1200 gr/mm,
Al+MgF2 (50-330 nm), res. 0.32 nmLuminescence:
Home-made Pouey VUV monochromator, 0.5 m, f/2.8,
res. 1.1 nm, solar blind R6836 Hamamatsu PMT (115-300 nm)
UV-VIS Monochromator, Acton Research 0.3 m Czerny-Turner SpectraPro300i, f/4, Hamamatsu PMT R6358P (200-800 nm). 3 gratings, 1200 gr/mm (2.7 nm/mm, blazed at 300 nm), 300
gr/mm (10.8 nm/mm, blazed at 300 i 500 nm)
OUTLINEExperimental set-up
SamplesSome physics:
localized and band states of charge carriers
UV i VUV spectroscopy of BaF2:Ce crystals:
results and discussionSummary
Samples cut from larger boules: BaF2:0.05m%Ce, 0.2m%Na
BaF2:0.015m%CeGrown at Optovac, MA, USA
donated by Prof. A. Łempicki of Boston University
Scintillator, phosphor, laser materialNot the best in any category, convenient as a model material: efficient host-ion energy transfer
emission at 290-350 nm, decay time 25-30 ns, complex spectroscopy
OUTLINEExperimental set-up
SamplesSome physics:
localized and band states of charge carriers
UV i VUV spectroscopy of BaF2:Ce crystals:
results and discussionSummary
Two kinds of electron states in solid state:1. Delocalized band states; k-vector
2. Localized (trapped or self-trapped) states; configuration coordinate Q
k, wave vector
E, electron energy
E = E0 – 2Acoskb
Electron band states, linear model of the crystal
A – electron transfer rateconstant
Localized states (carrier trapped at impurity/defect or
self-trapped)
Additional (linear) term in energy, Elin = -kQ
Band states:electronic energy reduced, no lattice
relaxationLocalized states
(self-trapped electrons or holes)lattice relaxation
no electronic energy loss The question for a free charge carrier in any
material is:
localize or delocalize?Two extreme cases: Si and BaF2
Si, broad cb i vb bands;a lot to gain by staying delocalized
ANDnothing to gain upon localization
(no lattice relaxation; covalent bonds)Band (quantum mechanical) conduction:
high mobility, low effective massNo self – trapping, no lattice relaxation gain
upon trapping at impurity/defect
BaF2:Ce, narrow cb i vb bands;little to gain by staying delocalized
ANDlarge lattice relaxation (ionic bonds)
hole/electron self-trapping, Vk centers, F – H complexes
Bandgap energy 10.6 eV (117 nm), band exciton (n = 1) 10eV (124 nm)
Free excitons – band states (relaxation?)Bound excitons – combined band and
localized statesElectron – hole pairs – band states
(relaxation?) Pay attention to 117 i 124 nm
OUTLINEExperimental set-up
SamplesSome physics:
localized and band states of charge carriers
UV i VUV spectroscopy of BaF2:Ce crystals:
results and discussionSummary
### D:\Users\Torun\BFCeNa09.dat, started at 22.07.2009, 02:11.### Scan of ARC (0/0 grating) monochromator from 450.00 to 210.00 nm, with 1.00 nm steps. Using 4 channels, counting time 2.00 s.### Primary monochromator: 200.000 nm (6.199 eV). T Sample: 299.80 K, Doris current: 0.00 mA.### ### BF2Ce(0.05)Na(0.2) ### Exc 200 nm### Temp 302 K### 300/300### slits 0.4 mm
RT, 200 nm
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### D:\Users\Torun\BFCeNa02.dat, started at 21.07.2009, 22:54.### Scan of primary monochromator from 310.00 to 50.00 nm, with 0.20 nm steps. Using 6 channels, counting time 2.00 s.### Monochromator Positions: ARC: 322.99 nm (300/300), VUV: -4.87 nm. T Sample: 305.20 K, Doris current: 0.00 mA.### ### BF2Ce(0.05)Na(0.2) ### Emi 323 nm### Temp 306 K### 300/300### slits 0.4 mm
RT, 323 nm
Crystal field:octahedral cubic tetrahedral
### D:\Users\Torun\BFCeNa03.dat, started at 22.07.2009, 00:09.### Scan of ARC (300/300 grating) monochromator from 450.00 to 270.00 nm, with 1.00 nm steps. Using 6 channels, counting time 2.00 s.### Primary monochromator: 137.495 nm (9.017 eV). T Sample: 302.30 K, Doris current: 0.00 mA.### ### BF2Ce(0.05)Na(0.2) ### Ex 137.5 nm### Temp 302 K### 300/300### slits 0.4 mm
RT, 137.5 nm
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### D:\Users\Torun\BFCeNa05.dat, started at 22.07.2009, 00:43.### Scan of ARC (300/300 grating) monochromator from 450.00 to 200.00 nm, with 1.00 nm steps. Using 6 channels, counting time 2.00 s.### Primary monochromator: 128.999 nm (9.611 eV). T Sample: 301.50 K, Doris current: 0.00 mA.### ### BF2Ce(0.05)Na(0.2) ### Exc 129 nm### Temp 302 K### 300/300### slits 0.4 mm
RT, 129 nm
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### D:\Users\Torun\BFCeNa07.dat, started at 22.07.2009, 01:23.### Scan of ARC (0/0 grating) monochromator from 450.00 to 180.00 nm, with 1.00 nm steps. Using 4 channels, counting time 2.00 s.### Primary monochromator: 112.296 nm (11.041 eV). T Sample: 300.60 K, Doris current: 0.00 mA.### ### BF2Ce(0.05)Na(0.2) ### Exc 112,3 nm### Temp 302 K### 300/300### slits 0.4 mm
RT, 112 nm
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RT, 137.5, 112, 129 nm
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D:\Users\Torun\BFCeNa02.dat, started at 22.07.2009, 00:43 emi. 323 nm, black, total.D:\Users\Torun\BFCeNa02.dat, started at 22.07.2009, 00:43 emi. 323 nm, red, slow.w. D:\Users\Torun\BFCeNa10.dat, started at 22.07.2009, 02:48, emi. 400 nm, blue, total
RT
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total, 400 nm total, 323 nm slow, 323 nm
exc.
### D:\Users\Torun\BFCeA01.dat, started at 16.08.2007, 14:40.### Scan of primary monochromator from 315.00 to 50.00 nm, with 1.00 nm steps. Using 4 channels, counting time 2.00 s.### Monochromator Positions: ARC: 319.99 nm (300/300), VUV: -5.91 nm. T Sample: 298.50 K, Doris current: 99.74 mA.### BaF2:Ce (0.015%), black line
### D:\Users\Torun\BFNaCe01.dat, started at 18.08.2007, 13:59.### Scan of primary monochromator from 300.00 to 65.00 nm, with 0.50 nm steps. Using 4 channels, counting time 3.00 s.### Monochromator Positions: ARC: 323.49 nm (1200/300), VUV: -5.92 nm. T Sample: 297.20 K, Doris current: 101.90 mA.### BaF2:Ce(0.05):Na, red line
RT, 320 nm
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total, 0.015m Ce total, 0.05m Ce
e-h pairs
### D:\Users\Torun\BFCeA01.dat, started at 16.08.2007, 14:40.### Scan of primary monochromator from 315.00 to 50.00 nm, with 1.00 nm steps. Using 4 channels, counting time 2.00 s.### Monochromator Positions: ARC: 319.99 nm (300/300), VUV: -5.91 nm. T Sample: 298.50 K, Doris current: 99.74 mA.### BaF2:Ce (0.015%), black line
### D:\Users\Torun\BFNaCe01.dat, started at 18.08.2007, 13:59.### Scan of primary monochromator from 300.00 to 65.00 nm, with 0.50 nm steps. Using 4 channels, counting time 3.00 s.### Monochromator Positions: ARC: 323.49 nm (1200/300), VUV: -5.92 nm. T Sample: 297.20 K, Doris current: 101.90 mA.### BaF2:Ce(0.05):Na, red line
RT, 320 nm
e-h pairs
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wavelength, nm
spectrum, 0.015mpercent, divisor quotient
114.5 nm
D:\Users\Torun\PBFCeNa01.dat, emi. 323 nm, exc. 200 nm
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Data: PBFCeNa01_BModel: ExpDecay1Equation: y = y0 + A1*exp(-(x-x0)/t1)Weighting: y No weighting Chi^2/DoF = 501314.32481R^2 = 0.98718 y0 25.43469 ±35.58415x0 0.40885 ±--A1 26662.9387 ±--t1 32.64458 ±0.25422
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D:\Users\Torun\PBFCeNa01.dat, emi. 323 nm, exc. 200.0 nm, black.D:\Users\Torun\PBFCeNa02.dat, emi. 323 nm, exc. 137.5 nm, red.D:\Users\Torun\PBFCeNa03.dat, emi. 323 nm, exc. 129 nm, blue.
RT
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D:\Users\Torun\PBFCeNa01.dat, emi. 323 nm, exc. 200.0 nm, black.D:\Users\Torun\PBFCeNa02.dat, emi. 323 nm, exc. 137.5 nm, red.D:\Users\Torun\PBFCeNa03.dat, emi. 323 nm, exc. 129 nm, blue.
RT
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D:\Users\Torun\PBFCeNa01.dat, emi. 323 nm, exc. 200.0 nm, black.D:\Users\Torun\PBFCeNa02.dat, emi. 323 nm, exc. 137.5 nm, red.D:\Users\Torun\PBFCeNa03.dat, emi. 323 nm, exc. 129 nm, blue.
RT
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D:\Users\Torun\PBFCeNa07.dat, emi. 400 nm, exc. 129 nm, black.D:\Users\Torun\PBFCeNa03.dat, emi 323 nm, exc. 129 nm, blue.D:\Users\Torun\PBFCeNa05.dat, emi 323 nm, exc. 112 nm, red.
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### D:\Users\Torun\BFCeNa13.dat, started at 24.07.2009, 17:32.### Scan of ARC (300/300 grating) monochromator from 450.00 to 210.00 nm, with 0.50 nm steps. Using 4 channels, counting time 2.00 s.### Primary monochromator: 199.997 nm (6.199 eV). T Sample: 9.78 K, Doris current: 0.00 mA.### ### BF2:Ce (0.05)Na(0.2)### Exc 200 nm### Temp 10 K### 300/300### slits 0.5 mm
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Exc. 200 nm
### D:\Users\Torun\BFCeNa12.dat, started at 24.07.2009, 16:07.### Scan of primary monochromator from 315.00 to 50.00 nm, with 0.20 nm steps. Using 6 channels, counting time 2.00 s.### Monochromator Positions: ARC: 322.99 nm (300/300), VUV: -4.87 nm. T Sample: 9.25 K, Doris current: 0.00 mA.### ### BF2:Ce (0.05)Na(0.2)### Emi 323 nm### Temp 10 K### 300/300### slits 1 mm
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fast slow reflection
125.6 nm
### D:\Users\Torun\BFCeNa15.dat, started at 24.07.2009, 18:36.### Scan of ARC (0/0 grating) monochromator from 450.00 to 210.00 nm, with 0.50 nm steps. Using 4 channels, counting time 2.00 s.### Primary monochromator: 132.000 nm (9.393 eV). T Sample: 9.78 K, Doris current: 0.00 mA.### ### BF2:Ce (0.05)Na(0.2)### Exc 132 nm### Temp 10 K### 300/300### slits 0.5 mm
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Exc. 132 nm
### D:\Users\Torun\BFCeNa17.dat, started at 24.07.2009, 19:31.### Scan of ARC (0/0 grating) monochromator from 450.00 to 240.00 nm, with 0.50 nm steps. Using 4 channels, counting time 2.00 s.### Primary monochromator: 114.000 nm (10.876 eV). T Sample: 10.18 K, Doris current: 0.00 mA.### ### BF2:Ce (0.05)Na(0.2)### Exc 114 nm### Temp 10 K### 300/300### slits 0.5 mm
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Exc. 114 nm
PBFCeNa12.dat, emi. 321.1 exc. 200 nm blackPBFCeNa13.dat, emi. 321.1 exc. 132 nm redPBFCeNa14.dat, emi. 321.1 exc. 114 nm blue
10K
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PBFCeNa12.dat, emi. 321.1 exc. 200 nm blackPBFCeNa13.dat, emi. 321.1 exc. 132 nm redPBFCeNa14.dat, emi. 321.1 exc. 114 nm blue
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PBFCeNa12.dat, emi. 321.1 exc. 200 nm
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25000Data: PBFCeNa12_BModel: ExpDecay1Equation: y = y0 + A1*exp(-(x-x0)/t1)Weighting: y No weighting Chi^2/DoF = 365535.4731R^2 = 0.98691 y0 0 ±0x0 0.58087 ±--A1 23759.93853 ±--t1 26.88571 ±0.16555
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PBFCeNa14.dat, emi. 321.1 exc. 114 nm blackPBFCeNa15.dat, emi. 321.1 exc. 83.2 nm redPBFCeNa16.dat, emi. 321.1 exc. 76.4 nm greenPBFCeNa17.dat, emi. 321.1 exc. 67 nm blue
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PBFCeNa16.dat, emi. 321.1 exc. 76.4 nm green
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Data: PBFCeNa16_BModel: ExpDecay1Equation: y = y0 + A1*exp(-(x-x0)/t1)Weighting: y No weighting Chi^2/DoF = 288488.1963R^2 = 0.29639 y0 1550 ±0x0 0.594 ±0A1 1675.88236 ±112.34022t1 17.70539 ±1.68786
inte
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time, ns
10K
### D:\Users\Torun\BFCeA09.dat, started at 18.08.2007, 18:42, red line, emi 323.5 nm.### D:\Users\Torun\BFCeA08.dat, started at 18.08.2007, 18:03, black line, exc. 199.0 nm. Exc. 291 nm – 34,400 cm-1Emi. 303 nm – 33,000 cm-1Stokes shift – 1400 cm-1
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emission excitation
0.015m%Ce
SummaryExcitation spectra point to:
dominant cubic crystal field, 10Dq about 15,000 cm-1,
low symmetry component about 2000-3000 cm-1
Stokes shift about 1400 cm-1
Three host-ion energy transfer channels 1) „bound exciton”2) „band exciton”
3) electron –hole pairsplus
4) Direct excitation (no host involved)
SummaryExcitation spectra point to:
dominant cubic crystal field, 10Dq about 15,000 cm-1,
low symmetry component about 2000-3000 cm-1
Stokes shift about 1400 cm-1
Three host-ion energy transfer channels 1) „bound exciton”2) „band exciton”
3) electron –hole pairsplus
4) Direct excitation (no host involved)
SummaryExcitation spectra point to:
dominant cubic crystal field, 10Dq about 15,000 cm-1,
low symmetry component about 2000-3000 cm-1
Stokes shift about 1400 cm-1
Three host-ion energy transfer channels 1) „bound exciton”2) „band exciton”
3) electron –hole pairsplus
4) Direct excitation (no host involved)
SummaryExcitation spectra point to:
dominant cubic crystal field, 10Dq about 15,000 cm-1,
low symmetry component about 2000-3000 cm-1
Stokes shift about 1400 cm-1
Three host-ion energy transfer channels 1) „bound exciton”2) „band exciton”
3) electron –hole pairsplus
4) Direct excitation (no host involved)
• direct excitation: fast Ce emission, no rise time, no slow components
• „bound exciton” excitation: fast Ce emission, short rise time, no slow
components• „exciton” excitation: Ce and host emission, some fast component,
dominant slow components• „e-h pair” excitation: Ce and host
emissions, fast and slow components, branching coefficient dependent on Ce
concentration
• direct excitation: fast Ce emission, no rise time, no slow components
• „bound exciton” excitation: fast Ce emission, short rise time, no slow
components• „exciton” excitation: Ce and host emission, some fast component,
dominant slow components• „e-h pair” excitation: Ce and host
emissions, fast and slow components, branching coefficient dependent on Ce
concentration
• direct excitation: fast Ce emission, no rise time, no slow components
• „bound exciton” excitation: fast Ce emission, short rise time, no slow
components• „exciton” excitation: Ce and host emission, some fast component,
dominant slow components• „e-h pair” excitation: Ce and host
emissions, fast and slow components, branching coefficient dependent on Ce
concentration
• direct excitation: fast Ce emission, no rise time, no slow components
• „bound exciton” excitation: fast Ce emission, short rise time, no slow
components• „exciton” excitation: Ce and host emission, some fast component,
dominant slow components• „e-h pair” excitation: Ce and host
emissions, fast and slow components, branching coefficient dependent on Ce
concentration