Absorptive Infrared Blocking Filterscmbpol.uchicago.edu/workshops/technology2008/depot/kuo...The...
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Absorptive Infrared Blocking Filters
Chao-Lin KuoStanford University
CMBPOL Technology workshop CMBPOL Technology workshop Aug 26, 2008Aug 26, 2008
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The purpose of IR filtering
Primary: Reducing the thermal radiation onto the 4K and/or VCS stagesReducing the loading on the sub-K stages (on the sub-K absorptive filters)
It is not the IR blockers’ job to cut off high frequency leaks!
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Metal-mesh versus Dielectric
Mm-wave Mm-wave
IR radiation IR radiation
thermalconduction
An Ideal reflective IR blocker:
* 100% transmission in band* 100% reflection out of band
An
Ideal absorptive IR blocker:
* 100% transmission in band* 100% absorption out-of-band* Good thermal conductivity
77 K, or 10 K
(reflective) (absorptive)
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The material requirements
Efficient IR blockingHigh thermal conductivity (filter temperature↓)Good In-band transmission (loading↓and signal↑ )Low index of refraction, and/or AR coating
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Some low loss dielectric materials
Materialproperties
Index of refraction
Absorption at 150GHz
Nepers
cm-1
Reflective loss per interface
Absorption at 3000GHz
Nepers
cm-1
Thermal conductivitymW
cm-1
K-1
Expanded PTFE
(ZITEX, Mupor)1.2 small 0.83% ~100 for thin
sheets
PTFE(Teflon)
1.44 0.015 3.3% 3.02.2 (80 K)1.4 (20 K)
Glass-filledPTFE
(Fluorogold)1.65 0.16 6.0% >30
Fused quartz 1.9 0.05-0.07 9.6% large5.3 (80 K)1.4 (20 K)
The key figure of merit is αIR /αmm
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PTFE seems to be a good candidate
Expanded PTFE: *low thermal conductivity*inefficient in bulkGlass-filled PTFE: *high refractive index *high mm-wave loss, and polarizedFused quartz: *high refractive index (and hard to AR-coat due to unmatched thermal expansion)
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IR properties of PTFE
1cm thick PTFE
Source Temp (K)
Transmittance %
Transmitted (mW)
300 0.072 23
120 0.95 7.9
77 3.1 4.3
20 47.8 0.3
4 99.9 0.001
Benford
et al. 4K PTFE filter is inefficient
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Order of Magnitude calculation: Zotefoam
PPA30
10 cm
30 cm
300K
“T”
K
κ
((300-T)/10) x (π152) = σ
T4 x (π152)
κ~ 2000 erg/s/cm/K σ= 5.67E-5 erg/s/cm2
T~ 150 K (measurement: ~190 K)Power ~ 2 Watts (measurement: 7.5W)
κ(300Κ)=4e3 erg/s/cm/K
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150K 2cm
30 cm
80K
(π30) x ((150-80) / 15) x 2.2 (mW
K-1
cm-1)*2 cm ~ 2 Watts (measured=5W)
The teflon
filter
Order of Magnitude calculation: Teflon(PTFE)
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Heat sinkingTeflon shrinks 1.9% from 300K 20K
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BICEP/BICEP-2 thermal filtering
4”
Zotefoam
1.5/2cm PTFE
LN
VCS
~190K
~170K
~70K
~150mW
~300K
5W
2.5W
4KNylon
~μW
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Comparison with metal mesh filters (for CMBPOL)
Cheap, easy to fabricate, arbitrarily large apertureWorks at extreme oblique anglesWell understood polarization propertiesEasy to AR coat
Deciding factor: which type has the lower mm-wave (in-band) loading