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12.20.00CAC / 1
Influence of Hydroxyl Contamination on Neodymium Fluorescence Lifetime in Potassium-Magnesium
Alumino-Metaphosphate Glasses
Carol Click*, Wilbur Reichman and Richard BrowUniversity of Missouri -- Rolla
Paul Ehrmann, Tayyab Suratwala and Jack CampbellLawrence Livermore National Laboratories
7th International Otto Schott ColloquiumJuly 11, 2002
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OSC 7/11/02CAC / 2
? Why are neodymium doped phosphate glasses important ?
? Why is hydroxyl contamination critical to Nd3+ fluorescence lifetime ?
? Experimental protocols and spectroscopic techniques
? Corrections performed on the measured Nd3+ fluorescence lifetime
? Determination of hydroxyl quenching rate
? Possible structural explanation of hydroxyl quenching rate
? Conclusions
Outline for investigating hydroxyl contamination on Nd3+ fluorescence lifetime
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OSC 7/11/02CAC / 3
Nd doped phosphate glasses are used for high peak power laser applications
? National Ignition Facility (NIF) at Lawrence Livermore National Laboratories, Livermore, CA, USA — 1.8 MJ of energy in a 3.5 ns pulse
— Delivering ~5 x 1014 W of power
? Create high enough pressures and temperatures to perform fusion energy research— Model star explosions
— Simulate nuclear reactions? NIF is an enormous material undertaking
— 192 beam lines with 16 amplifier glass plates (3072 slabs)— Two commercial vendors
– Schott Glass Technologies, Duryea, PA, USA (LG-770)– Hoya Corporation, Freemont, CA, USA (LHG-8)
— Required the development of new technologies to produce the amount of glass necessary
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OSC 7/11/02CAC / 4
NIF will have 192 beam lines focusing on a target the size of a grain of rice
? 3072 Nd doped glass slabs
— Each optic is ~81 x 46 x 4 cm3
—— 46 m46 m33 of finished optical quality of finished optical quality glassglass
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OSC 7/11/02CAC / 5
Recent advances have made continuous melting of high purity Nd phosphates possible
http://www.llnl.gov/
? Continuous melting vs. batch melting
— 20 times faster— 5 times less expensive
— 2 - 3 times better quality
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OSC 7/11/02CAC / 6
Hydroxyl contamination severely impacts Nd laser performance
? The upper laser level of Nd3+ atoms (4F3/2) can energetically interact with an overtone vibration of OH- molecules — Results in non-radiative decay of the Nd3+
— Hydroxyl quenching rate is dependent upon [Nd3+] and [OH-]
? After the Nd3+ and OH-
energetically interact
— Nd3+ decays to the 4I15/2state
— OH- excites to the 2nd
vibrational overtone
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OSC 7/11/02CAC / 7
Hydroxyl contamination must be minimized in phosphate glass melts
? Raw materials contain both chemically and physically absorbed hydroxyls
— Thermal drying of the raw materials (calcining) removes most of the hydroxyls– Can leave up to 1000 ppm OH-
? Dehydroxylation is performed to remove the residual hydroxyls after calcination
— Non-reactive gasses (O2, N2) are bubbled through the melt to remove OH- and H2O molecules physically
– Governed by diffusion of OH- to gas bubbles in the melt and the equilibrium POH above the melt
— Reactive dehydroxylation occurs between Cl2 and H2O to remove OH- chemically
– The reverse Deacon reaction produces HCl and O2 gases
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OSC 7/11/02CAC / 8
? Absolute measurements of [OH-] is very difficult in phosphate glasses at low levels
? Measurements are commonly performed to determine the extent of the effects of OH- at 3000cm-1 (3.33 ?m)
? Absorption (? 3.33? m) can be correlated to H contents of the glass using forward recoil spectroscopy (FRS)
? However, these correlation factors vary between 30 - 400 ppmw/cm-
[email protected]?m — For LG-770 and LHG-8 (@ NIF doping levels)
Hydroxyl contamination is estimated by absorption in the IR
)(
%%
1
1
5000
3000
33.3 cmthickness
TT
Lncm
cm
m
???
????
??
?
??
)(92)]([ 133.3
1 ?? ? cmppmOH mw ??
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OSC 7/11/02CAC / 9
Previous work has shown a possible plateau in the hydroxyl quenching rate at low [Nd]
? Acceptor/donor theory would predict zero quenching at zero [Nd]
? Appears to be a plateau at ~60Hz/cm-1 below 2x1020 ions/cm3
? Data comes from multiple sources, not a single systematic study
?? Indicates Indicates possibility of possibility of clustering of OHclustering of OH--
molecules around molecules around NdNd3+3+ atoms at low atoms at low [[NdNd]]
P.R. Ehrmann and J.H. Campbell, J. Am. Cer. Soc., 85(5), 1061-1069 (2002).
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OSC 7/11/02CAC / 10
Potassium-Magnesium-Alumino-Metaphosphateis used for this investigation
15 mol%K2O ?15 mol% MgO ?10 mol% Al2O3 ? 60 mol% P2O5
J.H. Campbell, T.I. Suratwala, J. Non-Cryst. Sol., 263&264, 318-341 (2000).
? KMAP is ametaphosphate(O/P~3.0) that is used as an analogue of LG-770
? [Nd] is varied from ~0.5 wt% to 8 wt%, by the addition of NdPO3
? [Nd] is determined by ICP-AE
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OSC 7/11/02CAC / 11
Hydroxyl contamination is controlled by melt bubble gas
Oxy
gen
Gas
Temp. ControlWater
1100oC
? Cullett glass is melted in SiO2 system— Crucible, lid and bubble tube
? Six approximate hydroxyl contamination levels are imposed upon each [Nd] with gas bubbling
— Dry oxygen with dry argon cover gas— Dry oxygen— Wet oxygen (0oC water bath)— Wet oxygen (25oC water bath)— Wet oxygen (50oC water bath)— Wet oxygen (75oC water bath)
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OSC 7/11/02CAC / 12
The decay rate is measured using a home-built spectrometer
Computer
Flashlamp
Optical Filters
Sample Chamber
PMT Oscilloscope
Voltage Source
Signal Generator
? Broad-band flashlamp is triggered at 6Hz— IR and UV are blocked using optical filters
? Fluorescence is detected by a PMT— Filter only allows IR through (1053nm emission)
? 256 signal averaging— Performed by oscilloscope
? Exponential fit to decay signal— Performed in Excel
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OSC 7/11/02CAC / 13
The fluorescence decay rate is a single decaying exponential function
? Fluorescence decay rate is the negative of the exponent of the fit? Fluorescence lifetime (?) is 1/fluorescence decay rate
0 200 400 600 8000.0
0.2
0.4
0.6
0.8
1.0
? occurs at 37% Intensity
Intensity = e(-0.0038*Time)
? = 260 ?s
Inte
nsity
Time (?s)
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OSC 7/11/02CAC / 14
Radiative decay rate is determined using Judd-Ofelt analysis
? Judd-Ofelt analysis requires— Absorption spectra— Emission spectra— [Nd] (4.2 x 1020 ions/cm3)— Abbe number (68.4)
840 860 880 900 920 9400.0
0.1
0.2
0.3
0.4
0.5
Thickness = 2.02 mm
Abs
orba
nce
? (nm)1025 1050 1075 1100 11250
2
4
6
8
10
12
14
16
Em
issi
on (
A.U
.)
? (nm)P.R. Ehrmann and J.H. Campbell, J. Am. Cer. Soc., 85(5), 1061-1069 (2002).
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OSC 7/11/02CAC / 15
Judd-Ofelt analysis provides several important spectroscopic terms
? Judd-Ofelt analysis performs a comparison of absorption and emission spectra of a rare earth doped glass
? The comparison is based upon known transitions within the absorption/emission manifold of Nd3+
P.R. Ehrmann and J.H. Campbell, J. Am. Cer. Soc., 85(5), 1061-1069 (2002).
Property Symbol Value
Radiative decay rate (±5%) (Hz) k rad 2865Intensity parameters (±5%) (x10-20 cm2) ? 6 5.6
Branching ratios for 4F3/2 to 4I9/2 (±5%) ? 9/2 0.428Absorption cross section (±0.2) (x10-20 cm2) ? 880 0.603
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OSC 7/11/02CAC / 16
The measured decay rate is effected by both radiative and non-radiative decay processes
? The fluorescence decay rate (k), as measured, is composed of the radiative decay rate (krad), the cumulative non-radiative decay rate (Knonrad), and radiation trapping (ftrap)
? The radiation trapping (ftrap) is the fraction of emitted light that is reabsorbed by the sample
? The radiative decay rate (krad) represents the fluorescence decay rate without any contributing factors
? The non-radiative decay rate (Knonrad) is a summation of the processes acting to increase the fluorescence decay rate
? ? nonradtraprad kfkk ??? 1
????
?????m
jREj
n
iTMiOHNdmpnonrad kkkkkk
11
— Multiphonon (mp)— Nd self quenching (Nd)— Hydroxyl quenching (OH)
— Transition metal impurities (TM)— Rare earth impurities (RE)
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OSC 7/11/02CAC / 17
Several small corrections are made to the measured decay rate
? The multiphonon decay is a non-radiative decay process whereby the Nd ion transfers energy to the lattice that results in matrix heating, but is dependent only upon glass composition— kmp is only ~100 Hz for phosphate glasses
? Very pure glasses and Nd rare earth materials are use to limit the contribution of kTM and kRE
— Assume both are zero for this study
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OSC 7/11/02CAC / 18
Radiation trapping decreases kmeas.
? Radiation trapping refers to the re-absorption and re-emission of Nd3+ fluorescence
? Dependent upon— Branching ratio (? 880) for 4F3/2 to 4I9/2 transition at 880nm— Overlap of emission and absorption bands at 880nm (? 880)— Neodymium concentration ([Nd])— Absorption cross-section at 880nm (? 880)— Effective optical path length (V1/3)
???
??? ?
???
?????? 3
1
880880880 ][exp1 VNdf trap ??
— Branching ratio (? 880) and overlap (? 880) parameters are determined from Judd-Ofelt analysis
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OSC 7/11/02CAC / 19
? Nd-Nd concentration quenching follows acceptor-donor theory of energy exchange— The decay rate due to concentration quenching (kNd) is
dependent upon the zero concentration decay rate (k0), the neodymium concentration ([Nd]) and an empirical factor (Q)
Concentration quenching effects are determined and corrected for
? ?QNdkkNd ][0?
— Since Nd3+ is both the acceptor and the donor, the quenching is dependent upon [Nd]2
0 10 20 30 40 50 602.0
2.5
3.0
3.5
4.0
4.5
5.0
QLG-770 = 8.8 cm-3
QLHG-8 = 8.4 cm-3
K0 = 2.5 kHz
Q = 8.3 cm-3
Dec
ay R
ate
(kH
z)
([Nd] (1020 ions/cm3))2
J.H. Campbell, T.I. Suratwala, J. Non-Cryst. Sol., 263&264, 318-341 (2000).
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OSC 7/11/02CAC / 20
Hydroxyl contamination decay rate is determined
? The increase of the Nd3+ decay rate due to hydroxyl contamination (kOH) is determined by comparing the decay rate vs. ? 3.33? m
— The decay rate (kcorrected) is the decay rate corrected for radiation trapping, concentration quenching, andmultiphonon effects
— The slope of the best fit line (forced through the origin) is the hydroxyl quenching rate (kOH) at that [Nd] per cm-1 of absorption @ 3.33 ?m 0 5 10 15 20 25 30 35 40 45
0
1
2
3
4
5
6
7
8
7.69 x 1020 Nd ions/cm3
Y = 190.7 X
k corr
ecte
d (kH
z)
? 3.33?m (cm-1)
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OSC 7/11/02CAC / 21
Hydroxyl contamination decay rate does not extrapolate to zero at zero [Nd]
0 1 2 3 4 5 6 7 80
20
40
60
80
100
120
140
160
180
200
Intercept = 36.3 Hz/cm-1
R2=0.99
k OH (
Hz/
cm-1 @
3.3
3?m
)[Nd] x 1020 ions/cm3
? The hydroxyl contamination decay rate (kOH) is linear with [Nd]? The intercept is not zero, which would be predicted by Förster-
Dexter theory of dipolar energy exchange
0 5 10 15 20 25 30 35 40 450
1
2
3
4
5
6
7
8
0.90
1.52
0.43
3.59
7.69
[Nd] (1020 ions/cm3)
k corr
ecte
d (k
Hz)
?3.33? m
(cm-1)
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OSC 7/11/02CAC / 22
Quenching rate is compared to previously reported data
0 2 4 6 8 10
50
100
150
200
250
300 Ref. data Current data
Y = 34.2 + 24.3 X
k OH (
Hz/
cm-1@
?3.
33?m
)
[Nd] x 1020 ions/cm3
J.H. Campbell, T.I. Suratwala, J. Non-Cryst. Sol., 263&264, 318-341 (2000).
? Previous work has shown the presence of a plateau at low [Nd] (<2wt%), which is not present in this study— Data is from multiple sources -- not a single study
? The entire data set can be fit linearly— Does not intersect the origin, which is a possible indication
of Nd - OH clustering
0 2 4 6 8 10
50
100
150
200
250
300 Ref. Data Current data set
Y = 36.3 + 20.2 X
k OH (
Hz/
cm-1@
?3.
33?m
)
[Nd] x 1020 ions/cm3
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OSC 7/11/02CAC / 23
Possible explanation of non-zero extrapolation
S.N. Houde-Walter et al, JNCS, 286, 118-131 (2001).
? Work on Er3+ doped glasses has shown that there is a possibility of “spectral clustering” of rare-earth ions in glasses— Energetic information can be communicated over long
distances (~2nm) between rare-earth ions (migration)— More likely that the energy will be given to a “trap” after
multiple migration steps— However, physical clustering would be detrimental,
because a single energy trap could quench the entire cluster
— Not necessary for an OH to be in the coordination sphere of every rare earth ion in order to quench it
? Neodymium and hydroxyl groups are both large species to be incorporated into a glass structure— Likely that they will be coordinated near chain terminating
species of the phosphate chain— Possible that the Nd and OH cluster near these sites
J.H. Campbell, T.I. Suratwala, J. Non-Cryst. Sol., 263&264, 318-341 (2000).
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OSC 7/11/02CAC / 24
Conclusions based upon current study
? In a systematic study of Nd and hydroxyls, the hydroxyl quenching rate is linear with [Nd], however it does not extrapolate to zero Hz at zero Nd
? Förster-Dexter theory of dipolar decay mechanisms would predict an extrapolation of zero Hz at zero [Nd], indicating that the decay mechanism between OH and Nd atoms is not truly dipolar
? Energy can be transferred between Nd atoms until the point when an OH trap is encountered, therefore it is not necessary for every Nd to be coordinated by an OH in order for hydroxyl quenching to occur
? Neodymium atoms and hydroxyl molecules are both likely to be clustered near chain terminating sites in phosphate glasses because of their large size, which could lead to Nd-OH clustering
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OSC 7/11/02CAC / 25
Acknowledgements
? This work is funded by Lawrence Livermore National Laboratory. Work was performed under the auspices of the US Department of Energy by of Lawrence Livermore National Laboratory under contract No. W-7405-Eng-48.
? Additional funding is provided by a US Department of Education G.A.A.N.N. Fellowship
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OSC 7/11/02CAC / 26
Hydroxyl contamination is seen as decreased transmission at 3000cm-1
5000 4500 4000 3500 30000
10
20
30
40
50
60
70
80
? 3.33?m = 4.7 cm-1
? 3.33?m = 38.2 cm-1
%T
rans
mis
sion
Energy (cm-1)