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Future GW Detectors Rana Adhikari (Caltech), David McClelland (ANU) IUCAA GW Detector Workshop, Aug-2016
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Future GW DetectorsRana Adhikari (Caltech), David McClelland (ANU)
IUCAA GW Detector Workshop, Aug-2016
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Past Detectors
• The Earth (Dyson, Dicke, Weiss, Harms)
• Pulsar Timing (Detweiler, Estabrook)
• The Moon (Paik)
• Resonant Bars (Weber, …)
• Laser Interferometers
• HF GWs (Birmingham)
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Future DetectorsAdv LIGO
Adv Virgo
KAGRA
2019
Voyager
Adv Virgo +
Adv LIGO+
KAGRA +
Einstein’s Cosmos Exploring Telescope
LISA
DECIGO / UNGO
2033
2026
2024
LIGO-India
Chinese Prototype
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Frequency [Hz]10
-410
-310
-210
-110
010
110
2
Str
ain
[1
/H
z]
10-25
10-24
10-23
10-22
10-21
10-20
10-19
10-18
10-17
Adv LIGO
Einstein Telescope (D)
DECIGO
LISA
Basic AGIS
BBO
UNOGO
Noise / Sensitivity
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Scientific Reach
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Frequency [Hz]10
110
210
3
Str
ain
[1/
Hz]
10-24
10-23
10-22
cre
ate
d u
sin
g g
win
c.m
on
13-M
ar-
2016 b
y r
an
a o
n S
ilver7
80.lo
cal
Adv LIGO
A+
Quantum: Pin = 145 W; ζsqz = 10 dBSeismic: aLIGONewtonian Gravity: 10x subtractionSusp Thermal: 123 K Si blades and ribbonsCoat Brown: α− Si : SiO2 Φcoat = 6.5e-05Coating ThermoOptic: ωbeam = 5.9 8.4 cmSub Brown: Si mirror (T = 123 K, mmirror = 204 kg)Residual Gas: 3 nTorr of H2
Sub Thermo-RefractiveCarrier Density: 1013/cm3
Total
Voyager Status
https://dcc.ligo.org/LIGO-G1601461
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Sub-Systems• Silicon Mirrors: 140-200 kg, mCZ
• Coatings: a-Si/SiO2 or others
• Wavelength Choice: 1.55 - 2.1 microns
• Cryogenics: 123 K, radiative cooling (steady state)
• Lasers (~2 micron): PPRM ~ 140 W, PARM ~ 3 MW
• Thermal Compensation: Silica compensation plates only (CO2 lasers, no ring heaters)
• Photodiode Quantum Efficiency: 80 -> 99% for 2 micron
Draft Whitepaper: https://dcc.ligo.org/LIGO-T1400226
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AmorphousSiliconCoating
OK
SiliconBonding
Composite Mirror
PD Q.E.@ 2 um> 95%
LargeAlGaAsCoating
2 um LaserP > 100 W
dnu < 1 MHz
2 um SQZlooks
possible
1.5 umR&D
2 umLIGO
???
goodbad
1 umLIGOOxide
Coatings
1 umRoom Temp.
LUNGO
good bad
1.5 umLasergood
bad
1 umRoom Temp.
LUNGO
badbad
good
KOLODNO
bad
good
bad
bad
1.5 umLIGO
good
125 kgHigh Purity
Silicon Mirrorgood
bad
good
good
good
Evans, Barsotti, Adhikari Nov 2015
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200 kg Silicon Mirror• Pabs < 5 W (goal); Pcoat = alpha*3MW; Psub =
d_thick*alpha*PBS (1W ~> 10 ppm/cm)
• 3 ppm/cm (FZ): FZ max diameter ~ 20 cm
• mCZ can get 10-20 kOhm in wafers after high T annealing (to trap oxygen)
• samples acquired, absorption measurements in progress (< 2 ppm)
• make 45 cm diameter mCZ
• how to sequence all of the annealing? Different processes for substrates, coatings.
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Coatings• a-Si / SiO2 baseline
• Pohl, Hellman data
• Glasgow IBS results
• Evidence of high T deposition leading to low friction due to high surface mobility*
• may be good for room temp also
• high T deposition with IBS this year
• lower absorption (1-5-2 microns) (J. Steinlechner, S. Reid)
Frequency [Hz]10
010
110
210
310
4D
isp
ace
men
t N
ois
e [m
/H
z]
10-23
10-22
10-21
10-20 T = 1000 ppm
# of layers = 13
Thickness = 1.09 µm
Substrate BrownianBrownianThermo-ElasticThermo-OpticThermo-Refractive
*Physics Today (Jan 2016): http://arxiv.org/abs/1512.03540
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serious Cryogenics
1 K
30 mK
from Laura de Lorenzo
4 cm Niobium cavity filled with Superfluid 4He
Q ~ 100 million
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Cryogenics• No serious issues here; this is NOT like CERN or KAGRA
• ~10 W heat extraction capability in steady state
• Prelim mech drawing & backscatter analysis done (Stanford/CIT engineers).
• Vibration from cryogenics no worse than existing cryo traps.
• How to do initial cool down? Heat switches?
Surrey Nanosystems
Acktar Black
Aface = ⇡(0.45/2)2
Abarrel = 2⇡(0.45/2)0.5
P = �(1234 � 804)(2Aface +Abarrel)
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Eduardo Sanchez, Calum Torrie
80 K Radiation / Light Baffle
123 K Test Mass
Invisible SuspensionExisting
77 K Cryo Pump
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Lasers, TCS, PDs• Tm:YAG, Ho:YAG commercial
lasers exist (low power, low noise, or high power, high noise)
• Adelaide lasers (Veitch LVC talk)
• Testing at CIT this summer
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Wavelength Choice• We know and like 1064 nm. Lots of experience.
• Many new issues with 1.5-2.1 microns.
• ~200 W lasers feasible with 1.8-2.1 microns
• PD QE > 80% today. No showstoppers yet.
• Scatter loss decreases with wavelength; quantum noise improvement. Increases ultimate reach assuming we solve “nuisance” losses (FI, OMC, MM, PBS, clipping, alignment, viewports, etc.)
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Frequency [Hz]10
110
210
3
Str
ain
[1/
Hz]
10-24
10-23
10-22
Quantum Noise: m = 100 kg, Pcav
= 3 MW
1064 nm: BNS = 516 Mpc, BHBH = 3236 Mpc1550 nm: BNS = 485 Mpc, BHBH = 3674 Mpc2000 nm: BNS = 462 Mpc, BHBH = 3971 Mpc
