nano-coatings the reasons and the r&d status
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Nano-coatings the reasons and the R&D status. Riccardo DeSalvo I.M. Pinto, V. Pierro , V. Galdi , M. Principe, Shiuh Chao, Huang-Wei Pan, Chen-Shun Ou , V. Huang. Gravitational Wave Advanced Detector Workshop, Waikoloa Marriott Resort, Hawaii, May 14 2012. JGW-G1201029. 1. Outline. - PowerPoint PPT PresentationTRANSCRIPT
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Nano-coatingsthe reasons and the R&D status
Riccardo DeSalvo I.M. Pinto, V. Pierro, V. Galdi, M. Principe, Shiuh Chao, Huang-Wei Pan,
Chen-Shun Ou, V. Huang
Gravitational Wave Advanced Detector Workshop, Waikoloa Marriott Resort, Hawaii, May 14 2012
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Outline
• Reasons to study nanometer coatings
• Status of R&D
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First interest for nanocoatings
• RDS participated to the PXRMS conference Big Sky – Montana
• X-ray mirror coating community• LIGO-G080106-00-R
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Lessons from x-ray community
• Extremely thin layers are always glassy• More stable !
• Natural doping due to inter-diffusion may also play a relevant role
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• Different atomic radius and oxydation pattern assure glassy structure around the interface between different materials
Sub-layer thickness
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Lessons from x-ray community, II
• Good glass formers remain glassy even for large thicknesses
• Poor glass formers – first produce crystallites inside the glass
• Invisible to x-rays
– Then crystallites grow into columnar-growth poli-crystalline films
• Crystallites are bad for scattering• Probably bad for mech. losses also• (Dopants induce better glass formers)
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., 69
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Lessons from x-ray community, III
• Not surprising Chao first managed to reduce scattering in gyrolaser dielectric mirrors by inventing the SiO2 doped TiO2
• But the important message is that thinner coatings are more stable !
• They will probably have even less scattering (crystallite free)
• Will they also have less mechanical losses?
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Shiuh Chao, et al., "Low loss dielectric mirror with ion beam sputtered TiO2-SiO2 mixed films" Applied Optics. Vol.40, No.13, 2177-2182, May 1, 2001.
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Layer thickness vs. Annealing
• Higher T annealing reduces losses
• In co-sputtering large percentages of dopant (SiO2 in TiO2) are needed
• Thinner layers require less (%) SiO2 for the same anneal-ing stability
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W.H. Wang and S. Chao, Optics Lett., 23 (1998) 1417;S. Chao, W.H. Wang, M.-Y. Hsu and L.-C. Wang, J. Opt. Soc. Am. A16 (1999) 1477;S. Chao, W.H. Wang and C.C. Lee, Appl. Opt., 40 (2001) 2177
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Why using layered SiO2::TiO2
• Comparing: stratified 66%TiO2 36%SiO2
with same refraction index as TiO2 doped Ta2O5
• 1) If mech. losses in TiO2::Ta2O5 are the same as in glassy TiO2 (worst case)
Mech. dissipation reduction ~ 36%
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TiO2 Doped TantalaSilicaTitania
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How much gain from layered TiO2:: SiO2
• Measured loss angles from TNI: plain Ta2O5 : 4.72±0.14 10-4
TiO2 doped Ta2O5 : 3.66±0.29 10-4
are consistent with a loss angle for glassy TiO2 : 1.2 - 1.4 10-4
Mech. dissipation reduction ~ 65%
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If we trust Effective Medium Theory,
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Dielectric Mixtures
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Structure makes differences in refraction index
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Titania Doped Tantala
• Years after Chao introduced SiO2-TiO2 coatings
• LMA discovered that TiO2-Ta2O5 coatings have – less mechanical noise, – better thermal noise performance
• Is it because TiO2-Ta2O5 is a more stable glass?
• Or because of atomic level stress due to doping?• Or both? Why stress may be important?14 may 2012 GWADW 2012 JGW-G1201029 11
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Example: hydrogen dissipation in metals
• A metal has P orbitals …
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• Hydrogen resides in electron cloud• = > Double well potential !• Flip-flops between wells• Indifferent equilibrium
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Example: hydrogen dissipation in metals
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…In the presence of an acoustic wave
• horizontal compression:– Proton jumps down
• Vertical compression– Proton jumps up
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Losses in a glass
• Double well potential
• Oscillating stress• Well to well jumping
• Each jump gives loss
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Stress the glass !
• Static stress
• Asymmetric double well
• State lives always in the lower hole
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Acoustic oscillations in double well potential
• No stress Stress• Well to-well jumping ●No jumping• Dissipation ●No dissipation
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Effects of Stress in Si3N4
• High stress• Low loss
x 100
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J.S. Wu and C.C. Yu, “How stress can reducedissipation in glasses,” Phys. Rev. B84 (2011) 174109.
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How to add Stress to the coating
• Adding TiO2 in Ta2O5 introduce random stress– Stress from different oxidation pattern (random distribution)
• Observed Lower losses
• Alternating thin layers TiO2 to SiO2 introduce ordered stress– Stress from different atomic spacing (ordered)
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How to add Stress to the coating
• How thick an optimal layer?– 1 interlayer diffusion length thick ?
• Uniformly graded concentration => uniform stress ?– Will it lead to Lower mechanical losses?
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S.Chao, et al., Appl. Optics, 40 (2001) 2177.
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• So far for the reasons to trynm layered coatings
• Now let’s look at the experimental activity on nmcoatings at Chao’s Lab in the National Tsing Hua University in Taiwan
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Refurbished ion-beam-sputterer
• Fast cycling Coater for SiO2, TiO2, Ta2O5
• For multi-layers and mixtures
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Refurbished ion-beam-sputterer
Kaufman-type ion beam sputter system in a class 100 clean compartment within a class 10,000 clean room Previously used to develop low-loss mirror coatings for ring-laser gyroscope
Sputter target and rotator
Exchangeable twin target holder
Kaufman ion gun and neutralizer
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Nano-layer coating preparations
• Calibrating deposition rate for TiO2 and SiO2
SiO2 first
SiO2 second
0 2 4 6 8 10 12 14 16 18 20 22 24 26 280
102030405060708090
100110120130140150160170180190200
0 5 10 15 20 25 30 350
102030405060708090
100110120130
Time(min)Time(min)
TiO2
Fitting curve
SiO2
Fitting curve
Thic
knes
s (n
m)
Thic
knes
s (n
m)
8.6%
6.7%
-1.2%
-1.8%
2.7%
-5%-10%
-0.3%
-1.4%
0.6%
0.2%
Deposition rate : 3.40 nm/min Deposition rate : 7.62 nm/min
QW :115nm QW :183nm
VB=1000V V A =-200V IB=50mA±2%Ar-Gun : 10-4 mbarAr-PBN : 10-4 mbarO2-Chamber: 5*59*10-4 mbar ±5%
VB=1000V V A =-200V IB=50±2%mAAr-Gun : 10-4 mbarAr-PBN : 1.5*10-4 mbarO2-Chamber: 3.27*10-4 ±5.5% mbar
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Nano-layer coating preparations
• Uniformity distribution for TiO2 and SiO2
-6 -5 -4 -3 -2 -1 0 1 2 3 4 5 680
82
84
86
88
90
92
94
96
98
100 SiO2 first
SiO2 second
Position(cm)
1% , 3.16cm
3.6% , 5cm
-6 -5 -4 -3 -2 -1 0 1 2 3 4 5 6
767880828486889092949698
100
TiO2 first
TiO2 second
Position(cm)
4.1% , 5cm
1% , 2.66cm
%
%
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Q Measurement setupChamber
Cold cathode ion gauge
Pirani gauge
Gate valve
Valve
Turbo vacuum pump
Scroll pumpConcrete block
Laser
QPD Detector
electrode
Clamp
SampleWindow
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Loss hunting
O-ringTight screws
Frequency(Hz)Frequency(Hz)
τ = 156.91926
φ = 3.75*10-5
τ = 287.14776
φ = 2.05*10-5
• Support losses
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Neutralizing clamp losses
• oxy-acetylene welding
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Fused Silica cantileverFused Silica bulk
2 mm
110 μ m
τ = 1726(s)
φ = 3.01E-06
Frequency = 61.3(Hz)
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Neutralizing Residual gas effects
Frequency = 54 Hz
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Neutralizing pump vibrations
Frequency(Hz) Frequency(Hz)
Pump on10-6torr
Pump off10-4torr
Pump on10-6torr
• Added flexible tube sank in lead pellets– Allow continuous pumping
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Frequency(Hz)
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Preparing Silicon cantilevers
• For cryogenic measurements
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???
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KOH wet etching
150ml
KOH
DI water
Ultrasonic cleaner
heater
Top view
Si(s) + 2(OH)- + 2H2O → Si(OH)2O2
2- +2H2(g)
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Silicon cantilevers
Etch side Protected side
5.5mm50092
μm 44.35 mm
10 mm
34 mm
0.35mm
500 μm
54.74 °
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Time(min) Ra(nm) error0 0.48 -120 4.296 0.36882240 7.376 1.51907360 8.782 0.34932469 3.539 0.16881
Roughness of cantilever
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Incidentally . . .
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Silicon cliff
• We live here !
• That’s Scary ! ! !
• Is this the reason why cryogenic mirrors do not improve?
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Better cryo coatings?
• What can we do to get better cryo coatings ? ?• Is getting away from silica a simple answer???
• Should we switch to Al2O3 instead ? ? ?• More work to do
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