1. Optical fiber based sensors for low temperature and superconductors
Antonella Chiuchiolo
4th EuCARD-2 Annual Meeting
Glasgow 28 – 30 March 2017

2. Outline Fiber Optic Sensors for the TNA
Fiber integration in the test facility SM18
FOS for cryogenic temperatures
FOS for superconducting magnets
Conclusions
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

3. Fiber Optic Sensors for TNA
Fiber Optic Sensors FOR CRYogenic ApplicatiOns and Superconducting Magnets
University of Sannio (IT)
University of Napoli, Federico II (IT)
University of Padova (IT)
University of Debrecen (HU)
Institute of Polymers, Composites and Biomedical materials (IT)
1st access granted 20th of November 2013
…to develop a non intrusive technology based on FOS for strain and temperature monitoring in the new generation of superconducting magnet and cryogenic devices…
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

4. Horizon 2020 Universities Industries Research Institutes
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

5. Fiber Optic Sensors for TNA
no commercial available FOS for cryogenic applications and superconducting magnets
Assessed Technology
Small size and lightweight
Immunity to electromagnetic interference
Intrinsic electrical insulation
Radiation hardness capability
Wide operating temperature range
Multiplexing
Innovation
Fiber Bragg grating (FBG) sensors
Rayleigh scattering distributed sensors
Wiring reduction in a complex environment
Remote monitoring
No heat-leak into the cryogenic bath
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

6. Fiber Bragg Grating sensor
Cladding
Core
Broadband light
FBG: longitudinal periodic variation of the refractive index in the optical fiber core
DlB (T, e)
lB: Bragg Wavelength
neff : effective refractive index of the core
Λ: grating period
Strain and Temperature sensitive:
: photo elastic coefficient
: thermo-optic coefficient
: thermal expansion coefficient
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

7. FBG for Cryogenic FBG temperature sensitivity:
room T
< 0.1 pm/K below 50 K
Bare FBG no suitable for cryogenic temperature!
Bare FBG
Coated FBG
The thermal response of a bonded or embedded FBG is dominated by the thermal expansion/contraction of the host material
[H. Zhang et al. IEEE Transactions oh applied superconductivity, VOL. 18, NO. 2, 2008]
Commercial Polyimide
30 mm thickness
12 mm
2 mm
5 mm
25 mm
Customized PMMA
5 mm thickness
Customized Epoxy
2 mm thickness
30 mm
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

8. Fiber integration in the test facility SM18
Sensors
Single Mode fiber
Commercial sensors
Customized sensors
Data Acquisition System
Optical Interrogators: sm125, sm130 and Hyperion modules
4 channels , 2 Hz - 1 KHz, 90 – 160 nm
Connections
Fusion Splice Machine for fiber reparation
Optical connectors and feedthrough to equip the test facility
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

9. Fiber integration in the test facility SM18
Vertical cryostat for testing magnets down to 4.2 K and 1.9 K:
Liquid and
Superfluid Helium
Horizontal cryostat for HTS cable of 20 to 60 meter length: Helium Gas cooling
Horizontal benches
RF test area
Visitors
Cryogenics
Vertical cryostats
SC - Link
For magnet cold powering up to 30 kA
Cluster D
Fiber Lab
Cryogen free cryostat for testing
FOS with 4.2 K Pulse Tube Refrigerator
Vertical cryostat for testing mechanical properties of large magnet structures down to 77 K:
Liquid Nitrogen
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

10. FBG characterization in the cryo cooler
Dedicated cryogen- free test station
He gas cooling down to 4 K with Pulse Tube refrigerator
Temperature control
Material study
Sensors Calibration
FBG and reference sensors set-up
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

11. FBG characterization in the cryo cooler
Material study
Sensitivity improvement
Design optimization
Sensors calibration
Non linearity
Repeatability along the cycles
ST below 40 K: 1 pm/K
30 K: 13 pm/K
30 K: 15 pm/K
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

12. FBG for cryostat temperature monitoring
Integration in the Superconducting Link horizontal cryostat
He gas cooling
20-m-long MgB2 cable characterization
He gas temperature monitoring over 20 m
with calibrated FBGs and distributed Rayleigh scattering based sensors
Connection side
Wiring reduction:
4 CCS: 16 wires
4 FBG: 2 wires
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

13. FBG for cryostat temperature monitoring
He gas temperature monitoring over 20 m with calibrated FBGs and distributed Rayleigh scattering based sensors
FBGs: agreement with CCS within 1 K at 30 K
Rayleigh scattering: map over distance with spatial resolution of 5 cm
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

14. FBG for superconducting magnets
Integration in the magnet structures and coils
Nb3Sn racetrack short model coils and quadrupoles
High Temperature Superconducting magnets (H.Bajas talk)
Temperature monitoring
Strain monitoring during magnet fabrication and operation
Nb3Sn Racetrack coil
Magnet assembly
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

15. FBG for superconducting magnets
Temperature monitoring inside the coil
Magnet cool down from 300 to 1.9 K
Strain monitoring inside the coil
Magnet powering to K
FBG Coil Temperature
Cernox cryostat temperature
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

16. Publications
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow

17. Conclusions
The SM18 test facility is now fully equipped for FOS integration and tests at cryogenic temperature
software integration in the facility needs further development
FBG for cryogenic temperature monitoring have been developed
material study is still needed to enhance the sensitivity at 4 K
FBG and Rayleigh scattering based sensors can be integrated in the facility cryostats for temperature monitoring
Sensors packaging solution needs further development
FBG can monitor the magnet thermo-mechanical behaviour of the magnet from fabrication to operation
Integration needs to be improved
Distributed sensors solution needs to be implemented
Antonella Chiuchiolo - 4th EuCARD-2 Annual Meeting - Glasgow