1111 k. yamamoto, r. takahashi, k. ono, t. sekiguchi, y. sakakibara, c. tokoku, m. kamiizumi, u....
TRANSCRIPT
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K. Yamamoto, R. Takahashi, K. Ono, T. Sekiguchi, Y. Sakakibara, C. Tokoku, M. Kamiizumi, U. Iwasaki, E. Hirose, A. Khalaidovski,
T. Uchiyama, S. Miyoki, M. Ohashi, T. AkutsuA, H. IshizakiA, T. SuzukiB, N. KimuraB, S. KoikeB, K. TsubonoC, Y. AsoC, T. UshibaC, K. ShibataC,
D. ChenD, N. OhmaeE, K. SomiyaF, R. DeSalvoG, E. MajoranaH, L. NaticchioniH, W. JohnsonI, A. CummingJ, R. DouglasJ, K. HaughianJ,
I. MartinJ, P. MurrayJ, S. RowanJ , G. HofmannK, C. SchwarzK, D. HeinertK, R. NawrodtK, KAGRA collaboration
ICRR.UT, NAOJA, KEKB, Phys.S.UTC, Astro.S.UTD, E.UTE,S.TITF, Sannio Univ.G, INFNH, Louisiana State Univ.I , University of GlasgowJ,
Friedrich-Schiller-Universitaet JenaK
Development of cryogenic payload
for KAGRA III
2013 September 22The meeting of Physical Society of Japan
@Kochi University, Kochi, Kochi
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0. Abstract
Although there are many topics, but here,I will explain
(1)Experiment in cooling test of KAGRA cryostat(2)1/4 cryostat (for performance test)(3)Monolithic sapphire suspension
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Contents
1.Introduction2.KAGRA cryostat3.1/4 cryostat4.Sapphire suspension5.Summary
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1. Introduction
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3km3km
MozumiY-end Sakonishi
X-end
AtotsuCenter
Vibration isolation system, Cryocooler unit, Cryostat, Cryogenic payload
Schematic view of KAGRA interferometerFour mirrors of arm cavity will be cooled.
Kamioka mine (Underground site)
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Cryogenic mirror
Cryostat
Vibration Isolation
Outline of vibration isolation and cryostat
1. Introduction
14 m
6
to SAS
View ports
Remote valve unit
4 Low vibration cryocooler unit
Main LASER beam
Cryostat Stainless steel t20mm Diameter 2.6m Height ~3.6m M ~ 10 ton
Cryo-coolers Pulse tube, 60Hz 0.9 W at 4K (2nd) 36 W at 50K (1st)
Outline of cryostatCryogenic
payload
Mirror20K
1. Introduction
S. Koike
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Main topics
Experiment using KAGRA cryostat Initial cooling time of cryogenic payload Radiation shield vibration
1/4 cryostat Performance test of cryogenic payload
Sapphire monolithic suspension Key component of KAGRA
1. Introduction
KAGRA cryostats have already been assembled !
at Toshiba Keihin Product Operations 8
2. KAGRA cryostat
Cooling test for all four KAGRA cryostats January 2013 – April 2013
Three of them were move to a warehouse near Kamioka on the 27th and 28th of July.
Cooling test for the 3rd cryostat July 2013 – August 2013
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2. KAGRA cryostat
Three cryostats were move to a warehouse near Kamioka on the 27th and 28th of July.
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2. KAGRA cryostat
Three of cryostats were move to a warehouse near Kamioka on the 27th and 28th of July.
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2. KAGRA cryostat
Three of cryostats were move to a warehouse near Kamioka on the 27th and 28th of July.
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2. KAGRA cryostat
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Experiments in cooling test of KAGRA cryostat
Experiment 1 : Initial cooling time of cryogenic payload This initial cooling time should be short. Yusuke Sakakibara and Kenji Ono reported in previous talks.
Experiment 2 : Measurement of shield vibration This vibration causes motion of mirrors and scattered light noise. Dan Chen and Luca Naticchioni developed cryogenic accelerometer.
2. KAGRA cryostat
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Experiment 2 : Measurement of shield vibration Dan Chen (horizontal motion)
2. KAGRA cryostat
Analysis for sensitivity is in progress.
After cooling down 10K
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Experiment 2 : Measurement of shield vibration Luca Naticchioni (vertical motion)
2. KAGRA cryostat
Analysis for sensitivity is in progress.
After cooling down 10K
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Cryogenic payload is not a simple system.
We need cryostat to test cryogenic payload performance.
KAGRA cryostat is not appropriate for test. Cleanness must be kept
1/4 cryostat will be prepared in Kashiwa campus.1/4 means number of cryocooler, not size.It will be delivered on the end of September.
3. 1/4 cryostat
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Initial cooling test with liquid nitrogen (Jecc Torisha) : 30th Aug. 2013Delivery : 27th of Sep. 2013 Vacuum chamber : 1.2 m in diameter, 1.6 m in height
3. 1/4 cryostat
1.5hours 100K
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4. Sapphire suspension
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Sapphire monolithic suspension Sapphire mirror suspended by sapphire fibers. Key component of KAGRAWe need(a)Drilled sapphire mirror(b)Sapphire fibers with nail heads
Preliminary
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4. Sapphire suspension
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Drilled sapphire bulk We ordered Shinkosha (test sample). It will be delivered on the end of September.
KAGRA mirrors : 220 mm in diameter
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4. Sapphire suspension
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Drilled sapphire bulk We ordered Shinkosha (test sample). It will be delivered on the end of September.
Latest status (19th of Sep. 2013)
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4. Sapphire suspension
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Test sample (T. Uchiyama)
Sapphire fibers with nail heads are necessary to suspend mirrors.
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MolTech GmbH (Germany) and IMPEX HighTech GmbH (Germany) have already delivered !
4. Sapphire suspensionSapphire fibers with nail heads
Although the size is similar to that of KAGRA, quality check is necessary.
4. Sapphire suspension
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Sapphire fibers with nail heads
Quality check under collaboration with ET (ELiTES) Q-value Measurement in Glasgow, Jena, Rome and Tokyo Thermal conductivity Measurement in Jena, Rome and Tokyo Strength Measurement preparation in Glasgow
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Latest summary
4. Sapphire suspension
Moltech IMPEX KAGRA requirement
Q-value 107 2*106 5*106
at 20KThermal Conductivity 3000 5000 5000at 20K [W/m/K] -10000Although these results are promising, further investigation is necessary.
Sapphire fibers with nail heads
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4. Sapphire suspensionThermal conductivity of four IMPEX fibers
Enough high conductivity But Q-values was not measured.
Aleksandr KhalaidovskiRonny Nawrodt
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4. Sapphire suspensionQ-values of IMPEX fibers (high thermal conductivity)
Measurement is in progress at Rome. Dan Chen, Ettore Majorana
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4. Sapphire suspension
Measurement is in progress at Rome. Dan Chen, Ettore Majorana
Q-values of IMPEX fibers (high thermal conductivity)
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4. Sapphire suspension
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Assembled sapphire monolithic suspension
Performance of assembled monolithic sapphire pendulum must be checked.
Before that, sapphire bulk is suspended by sapphire fibers using indium as thermal and mechanical contact (some kinds of “glue” instead of bonding) between sapphire bulk and fibers. We will investigate performance and obtain expertise for the monolithic pendulum test as first step.
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4. Sapphire suspension
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Assembled sapphire monolithic suspension A. Khalaidovski designed the frame for this first step. This frame was delivered.
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5. SummaryKAGRA cryostat Experiments in cooling test : Initial cooling time of payload Previous talks by Y. Sakakibara and K. Ono Radiation shield vibration Measurement was finished. Analysis for sensitvity is in progress. D. Chen and L. Naticchioni
1/4 cryostat to check cryogenic payload will be delivered by the end of September.
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5. SummarySapphire monolithic suspension
Drilled bulk will be delivered on end of September. Experiments for sapphire fiber are in progress but the results are promising. We are preparing the first step experiment of monolithic sapphire suspension.
A. Khalaidovski, R. Nawrodt, D. Chen, E. Majorana
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Acknowledgement
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ELiTES: ET-LCGT interferometric Telescope Exchange of Scientists Grant for collaboration about cryogenic between KAGRA and ET European 7th Framework Programme Marie Curie action (Mar. 2012 - Feb. 2016)
European people can visit Japan for KAGRA.
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C. Tokoku
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Thank you for your attention !
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6. Human resources
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Japanese graduate students visited (or will visit) Europe.
Yusuke Sakakibara (October 2012 – December 2012) Investigation for coating and sapphire fibers (Glasgow and Jena) ET meeting, Hannover, December 2012http://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=1420 http://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=1469
(Takanori Sekiguchi (January 2013 – March 2013) Investigation for vibration isolation (Amsterdam) http://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/DocDB/ShowDocument?docid=1708) Dan Chen (September 2013 – October 2013) Investigation for sapphire fiber (Rome)
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6. Human resources
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Visitors supported by ELiTES in the last half year
Christian Schwarz, Gerd Hofmann, Ronny Nawrodt (Jena) Automatic systems to measure Q-values and thermal conductivity of sapphire fibers
Luca Naticchioni, Maurizio Perci, Ettore Majorana (Rome) Measurement of KAGRA radiation shield at cryogenic temperature
(Kieran Craig (Glasgow) Measurement of coating mechanical dissipation)
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Some items for future research (not perfect list)
(a)Investigation material properties (Q, thermal conductivity, strength etc.) of coating, fiber and so on.(b)Sapphire bonding, Sapphire fiber clamp(c)Control and damping scheme Actuators and sensors at cryogenic temperature(d) Mechanical and thermal simulation for payload(e) Vertical spring in cryostat(f) Reduction of initial cooling time Thermal resistance of clamp .... (g) Baffles for scattered light in radiation shield(h) Assembly procedure
7. For future
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8. SummaryCryostat : Assembly is in progress. Cooling test is coming soon.Cryogenic duct : Optimum position of 5 buffles Future work : scattered lightCryocooler unit : Cooling test and vibration measurement : OKCryogenic payload Preparation for 1/4 cryostat to check payload performance is in progress. Current main R&D topics Inital cooling time, Sapphire fiber with nail head, Coating mechanical loss, Vibration of shield
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8. Summary
ELiTES has already started and supports the development of KAGRA cryogenic system.
If you want to join our mission, let us know.
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2. Issues
(1)How to assemble Details of construction, clean room ….
(2)Strength Tensile strength, development of clamp, sapphire bonding …
(3)Control and damping system to reduce fluctuation and instability Actuators (what and where), resonant mode (frequency and Q) and so on
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2. Issues
(4)Cooling
Temperature of mirror (below 20 K), initial cooling time, heat resistance of clamp …
(5)Noise
Thermal noise, vibration via vibration isolation system and heat links …
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Test 2 : Heat load test How much is temperature with extra heat load ?
We can derive extra heat load from temperature. Examples for extra heat load Scattered light by mirror Heat absorption in mirror 300 K radiation through holes for main beam
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Cooling test in Toshiba
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Cooling test in Toshiba
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Test 2 : Heat load test
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Pulse tube cryocoolers
Pulse tube cryocoolers
Pulse tube cryocoolers
Heater and thermometer
Sapphire mirror
Cooling test in Toshiba
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Test 2 : Heat load test
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2 W
5 W
10 W 0 W
Scatted power is 5 W when scattered loss on the mirror surface is 10 ppm.
Cooling test in Toshiba
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Test 2 : Heat load test
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Pulse tube cryocoolers
Pulse tube cryocoolers
Pulse tube cryocoolers
Heater and thermometer
Sapphire mirror
Cooling test in Toshiba
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Test 2 : Heat load test
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4 W
10 W 0 W
According to our design, temperature should be below 8 K when heat absorption in mirror is 1 W.
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2. 1/4 cryostatBid (for parts of 1/4 cryostat) was opened ! (Jecc Torisha) Discussion for final design is in progress.
Preliminary and
not latest version.
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After Yusuke left …. Clamp for IMPEX fibers in Jena
4. Sapphire fibers
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Profile measurement in Glasgow
4. Sapphire fibers
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Q measurement in Jena
5. Sapphire suspensionSapphire fibers with nail heads
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Thermal conductivity measurement in Jena
5. Sapphire suspensionSapphire fibers with nail heads
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Latest summary
5. Sapphire suspension
Crystal axis
Ribbon ?
Sapphire fibers with nail heads
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Outline of vibration isolation and cryostat
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2 Pulse tube cryocoolers
2 Pulse tube cryocoolers
Pulse tube cryocoolers
Baffles Cryoduct
Outer shield(80K)
Inner shield(8K)
Vacuum chamber
(300K)
Outline of vibration isolation and cryostat
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Pulse tube cryocoolers
Pulse tube cryocoolers
Pulse tube cryocoolers
Heat link (pure Al)
Sapphire mirror (About 20K)
Heat link (pure Al)
Sapphire fiber
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Cooling test of KAGRA cryostat in Toshiba
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Test 1 : Initial cooling time of ratidation shield How long does it take to cool shield ?Test 2 : Heat load test How much is temperature with extra heat load?C. Tokoku et al., Proceedings of CEC/ICMC 2013 (2EPoE1-03)
K. Yamamoto et al., Opening a new era for the astrophysics:The future detectors of gravitational waves (19 April 2013) http://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/DocDB/ShowDocument?docid=1615
2. KAGRA cryostat
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Test 1 : Initial cooling time
The result (2 weeks) is similar to our expectation.There is no large unexpected heat invasion and resistance.
2. KAGRA cryostat Cooling test of KAGRA cryostat in Toshiba
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Two items for cryoduct
(1)300K radiation though this cryo duct must be small.
(2)Scattered light noise by this duct should be small. Not only scattered light itself but also vibration of cryo duct should be small.
Preparation for experiment is in progress.Yusuke Sakakibara will explain details later.
3. Cryoduct
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5. Sapphire suspension
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Drilled sapphire bulk We ordered Shinkosha (test sample). It will be delivered on the end of September.
30th of July 2013
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Construction is in progress (Jecc Torisha). Support frame inside radiation shield
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Construction is in progress (Jecc Torisha). Radiation shield
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Construction is in progress (Jecc Torisha). Vacuum chamber : 1.2 m in diameter, 1.6 m in height
4. 1/4 cryostat
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5. Sapphire suspension
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Bonding between sapphire fibers and sapphire mirror Investigation of Hydroxide Catalysis Bonding is in progress in Glasgow. (Rebecca Douglas, GWADW2013).
Strength (about 60 MPa) measured by her is 10 times larger than those of previous papers. T. Suzuki et al., Journal of Physics; Conference Series 32(2006)309. A. Dari et al., Classical and Quantum Gravity 27(2010)045010.
Plan : Measurement of thermal resistance and so on.
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6. Human resources
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Fresh personsDr. Aleksandr Khalaidovski from Hannover, June 2013-May 2014 Sapphire monolithic suspension
(Dr. Fabián Erasmo Peña Arellano from Birmingham, May 2013 – April 2016 Cryogenic sensor)
Dr. Rahul Kumar from Glasgow, October 2013 – September 2014 Simulation and development of payload