articipants: C-1:Cryogenic last-stage suspensions (interferometers) (F.Ricci-G.Frossati) Objectives: -Design new suspension elements for the last stage of interferometers. -Achieve a low noise remote control of the mirror position using cryogenic sensors -Assemble and test of a full-scale prototype of cryogenic final stage C-2:Cryogenics suspensions for advanced interferometers (G.Frossati-M.Bassan)- Objectives: -Two 1.2 ton spheres with their suspension assembled and measurements of Q and thermal noise at low temperature performed. C-3: Cryogenics suspension system for interferometers (S.Braccini-M.Bassan) Objectives:
19
Embed
STREGA - WP2-Task C: Design of advanced cryogenic suspensions
STREGA - WP2-Task C: Design of advanced cryogenic suspensions. Year 1 - 2004. C-1:Cryogenic last-stage suspensions (interferometers) (F.Ricci-G.Frossati) Objectives: -Design new suspension elements for the last stage of interferometers. - PowerPoint PPT Presentation
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Participants:
C-1:Cryogenic last-stage suspensions (interferometers) (F.Ricci-G.Frossati)Objectives: -Design new suspension elements for the last stage of interferometers.-Achieve a low noise remote control of the mirror position using cryogenic sensors-Assemble and test of a full-scale prototype of cryogenic final stage C-2:Cryogenics suspensions for advanced interferometers (G.Frossati-M.Bassan)-Objectives:-Two 1.2 ton spheres with their suspension assembled and measurementsof Q and thermal noise at low temperature performed.C-3: Cryogenics suspension system for interferometers (S.Braccini-M.Bassan)Objectives:-The entire apparatus be located in a cryogenic environment; the extra noise coming from the cryogenic system be studied and made negligible.-Full cryogenic suspension be assembled and tested
Participants:Participants: INFN ROG
Leiden University
Tasks: - Cool down of Minigrail to 50 mK- Investigation of heat transfer from the mixing chamber to the sphere
Deliverables: - Report on mechanical transfer function
measurements of cryogenic suspension
Cryogenic suspension system for advanced resonant detectors
MiniGRAILCryogenics
cryostat
Liquid N2 77K (-196 ºC)
Liquid He4K (-269 ºC)
Dilution refrigerator(10 mK)
MiniGRAILCryogenics; The dilution refrigerator
still(700 mK)
50 mKplate
mixingchamber(10 mK)
To 50 mK shield
To mixing chamber
CryogenicsThermal anchoring suspension
To still shield
CryogenicsRun 4
Minimum temperatures:Tsphere = 80 mKTmc = 20 mK
Time dependent heat leak from sphere:
45 W after 6 weeks
Vibration Isolation System
1
2
3
4
5
6
7Attenuation cables
+ absorbers
Vibration Isolation System
1
2
3
4
5
6
7
Attenuation between mass 1 and 2
• Larger diameter (68 cm instead of 65 cm) gives lower frequency and higher mass (1300 kg instead of 1150 kg).
• Six holes machined in TIGA positions
The new sphere
Resonance frequencies of bare sphere at 300 K
Old sphereNew sphere
Frequency of new sphere about 200 Hz lower
Improvements on the Vibration Isolation System
370
370
370
370
370
370
370
Material before (mm) fbefore (Hz)
CuAl 1,2 370 3516
CuAl 3,4 370 3516
Cu 5-7 370 3397
Improvements on the Vibration Isolation System
370
370
362
362
358
358
358
Material before (mm) fbefore (Hz) after (mm) fafter (Hz)