LIGO-G020276-00-D Fused Silica Suspensions Phil Willems LIGO/Caltech Elba GWADW Meeting May 19-26,...
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Transcript of LIGO-G020276-00-D Fused Silica Suspensions Phil Willems LIGO/Caltech Elba GWADW Meeting May 19-26,...
![Page 1: LIGO-G020276-00-D Fused Silica Suspensions Phil Willems LIGO/Caltech Elba GWADW Meeting May 19-26, 2002.](https://reader035.fdocuments.in/reader035/viewer/2022070404/56649f395503460f94c56d02/html5/thumbnails/1.jpg)
LIGO-G020276-00-D
Fused Silica Suspensions
Phil Willems
LIGO/Caltech
Elba GWADW Meeting
May 19-26, 2002
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2LIGO-G020276-00-D
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3LIGO-G020276-00-D
Justification for Silica
Metal wire suspension thermal noise dominates in the low audio frequency range
Best metal wires get about Q=105-106 for violin modes (Niobium flexures approach 107)
Very high intrinsic Q of fused silica, plus other nice mechanical properties, allow far lower thermal noise
Estimates are that suspension noise will drop below radiation pressure noise in AdLIGO
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4LIGO-G020276-00-D
Thermal noise, metal vs. silica
0.1 1 10 100frequency HHzL
1. ´ 10- 21
1. ´ 10- 19
1. ´ 10- 17
1. ´ 10- 15
1. ´ 10- 13
tnemecalpsid
HmtrqsHzHL
Red: metal Black: silica
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5LIGO-G020276-00-D
What’s so nice about silica
Intrinsic Q is very high (8x107 and climbing) Surface losses limit this, but still to very high values Thermal expansion low, giving small thermoelastic
damping Young’s modulus increases with temperature,
allowing cancellation of nonlinear thermoelastic damping
Silica is strong (same yield load as same diameter steel)
But has lower elastic modulus, so less bending stiffness, higher dilution
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6LIGO-G020276-00-D
Size Dependence of Fiber Loss
Loss inversely
proportional to
volume/surface
ratio
Data from Syracuse group
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7LIGO-G020276-00-D
Q of Typical Silica Fiber
K/109.3α 7
8106.7φ intrinsic loss,
thermoelastic loss,
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8LIGO-G020276-00-D
Nonlinear Thermoelastic Damping
Loss function :
2
2
NTEωτ1
ωτα
ρ
E
u
dT
dE
C
TE
V
k
rCVfiber 4
0737. 2 k
Ct Vribbon
2
2
Note: true only for u large compared to oscillation strain
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9LIGO-G020276-00-D
Typical silica fiber strengths
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10LIGO-G020276-00-D
Some Notable Results
Intrinsic Q=8x10^7 for thick annealed rod (Syracuse) Pendulum Q=2.5x10^8 for bifilar torsional pendulum
(Moscow/Glasgow) Violin Q=5.2x10^8 (Caltech) Vertical Bounce Q=1.2x10^7 (Caltech)
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11LIGO-G020276-00-D
Alternative Suspension Geometries
Fiber- easy to make, low thermal noise, diameter fixed by NTE
Ribbon- somewhat harder to make, but aspect ratio can be chosen to push increased NTE damping to higher frequency, allowing cross section choice to set vertical bounce frequency
Dumbbell fiber- somewhat harder to make, optimizes end diameters for NTE and middle diameter for lower vertical bounce frequency
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12LIGO-G020276-00-D
1 5 10 50 100 500frequency , Hz
1. ´ 10- 21
1. ´ 10- 19
1. ´ 10- 17
1. ´ 10- 15tnemecalpsid
esion
,mtrqsH
zHL
Thermal noise of fibers and ribbons
Note: assumes AdLIGO suspension parameters
Red: fiber
Blue: ribbon
Black: dumbbell
fiber
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13LIGO-G020276-00-D
Difficulties, Peculiarities, and Work To Be Done
Quartz suspensions are very brittle, need tender loving care.
Silica fibers are welded, not clamped, into suspension. Effects of welding attachments and tapered ends must be considered.
Demonstration of expected high Q’s still elusive. Stress dependence of loss not yet known. Excess noise in fused silica not yet known. Violin modes have such high Q that they interfere
with interferometer control and must be damped.
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14LIGO-G020276-00-D
Influence of Welded Pins on Suspension Q
The program that models dumbbell fibers can easily model the welded pins on the ends of suspension fibers (good approximation if pins are relatively long and thin)
Used this analysis to confirm Mitrofanov and Tokmakov’s estimate of Q limit due to lossy pins
Our result: this is substantially correct, although for thicker fibers the torque also plays a significant role. Basic result:
A reasonably good, reasonably short pin will not unduly influence Q or thermal noise.
2
11
ω
4
pp
pv
Lm
MgQQ
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15LIGO-G020276-00-D
Influence of Taper Ends on Suspension Loss
Suspension fibers drawn from rod stock often retain thick rod ends for ease in welding. The tapered transition from fiber to end increases the effective thickness of the fiber and reduces the dissipation dilution.
Assuming diameter-independent loss (not strictly true), finite-element models show factor of two reduction of violin mode Q for typical suspension experimental parameters due to tapers.
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LIGO-G020276-00-D
Silica Suspension Research at Caltech
P. Willems, V. Sannibale, V. Mitrofanov, J. Weel, M. Thattai, A. Heptonstall, J. Johnson, D. Berns
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17LIGO-G020276-00-D
Suspensions Research 2,600 Years Ago
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18LIGO-G020276-00-D
Suspensions Research Today
Automated fiber pulling lathe
Q-measurement rig
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19LIGO-G020276-00-D
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20LIGO-G020276-00-D
Welded Fiber End
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21LIGO-G020276-00-D
Measurement of (dE/dT)/E from Temperature Shift of Unloaded Fiber Mode Frequencies
K/1052.1
/2
/
4
f
dTdf
E
dTdE
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22LIGO-G020276-00-D
Mode Frequencies: theory vs. experiment
779
780
781
782
783
784
785
786
787
0 1 2 3 4 5 6 7
mode number
freq
uen
cy/m
od
e n
um
ber
data
theory
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23LIGO-G020276-00-D
Temperature Shift of the Violin Modes Yields the Dilution Factor
)2/(1
)(2
1/00 ββuα
Dβuα
f
dTdf
nn
n
nn
n
D
β
f
dTdf
2
/
For this suspension,
In general,
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24LIGO-G020276-00-D
Good Agreement with Theory
datao theory
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25LIGO-G020276-00-D
Q of Typical Silica Fiber
K/109.3α 7
8106.7φ intrinsic loss,
thermoelastic loss,
![Page 26: LIGO-G020276-00-D Fused Silica Suspensions Phil Willems LIGO/Caltech Elba GWADW Meeting May 19-26, 2002.](https://reader035.fdocuments.in/reader035/viewer/2022070404/56649f395503460f94c56d02/html5/thumbnails/26.jpg)
26LIGO-G020276-00-D
Q’s of the Violin Modes
theory, with NTE
theory, w/o NTE
theory, w/o NTE
and x10-7/K
data
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27LIGO-G020276-00-D
Vertical Bounce Apparatus
isolation mass
test mass
tensioner
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28LIGO-G020276-00-D
0 5000 10000 15000 20000 25000TimeHsL-4
-3
-2
-1
0
1
nl
edutilpma
Vertical Bounce Ringdown(first result)
Q=1.25e7
Note: this fiber under the same stress planned for AdLIGO
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29LIGO-G020276-00-D
Q of Typical Silica Fiber