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Oxford R&D

Oxford R&D. Cold Fibre radiation tests Splitter and connector radiation tests Fibre reliability after radiation Core Cladding cables Reliability testing for iFlame Batch testing in production. Cold Fibre Radiation Tests (1). Want to qualify two sources for SM and MM fibres.

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Oxford R&D

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  1. Oxford R&D • Cold Fibre radiation tests • Splitter and connector radiation tests • Fibre reliability after radiation • Core • Cladding • cables • Reliability testing for iFlame • Batch testing in production ATLAS/CMS Opto WG March '11

  2. Cold Fibre Radiation Tests (1) • Want to qualify two sources for SM and MM fibres. • Suitable fibres passes radiation tests when operated warm but damage more significant cold. • Cold fibre radiation tests • First tests at Rita with low dose with Peltier cooler • Damage larger than warm but extrapolation to full dose uncertain  inconclusive • Full SLHC dose at Brigitte • Two SM fibres passed tests  qualified. • Other SM fibre and MM fibres showed large damage but dose rate unrealistically high  results inconclusive. ATLAS/CMS Opto WG March '11

  3. Cold Fibre RIA (1) • Two SM fibres qualified for cold operation (-25C). Draka SRH-SMF Producer X ATLAS/CMS Opto WG March '11

  4. Cold Fibre (2) • MM fibres not yet qualified • Infinicor SX+ qualified from warm radiation tests. • Results inconclusive • Further tests at lower dose rates ATLAS/CMS Opto WG March '11

  5. Cold Fibre Radiation Tests (2) • Plan for long radiation test at Rita • > 10 day run @ 1 kGy/hour • Use liquid CO2 for blow-off cooling system • Optimise the system, length of capillary. • Run with 3 bottles and replace one every 24 hours • Hope to run this summer if safety accepted at SCK. • Combine results with very low dose rate tests by SMU at BNL? ATLAS/CMS Opto WG March '11

  6. Splitter Radiation Tests • Samples of two commercial splitters and other samples irradiated at Mega Curie source (Taiwan) to beyond full SLHC dose (500 kGy). • Measurements performed before and after radiation. • Show results for next VL meeting ATLAS/CMS Opto WG March '11

  7. Connector Tests • Test LC and MT/MPO connectors before and after radiation. • Simple insertion loss measurements. • Before radiation tests of MT/MPO performed. • Repeat equivalent tests for LC connectors • Irradiate to 500 kGy at Mega Curie source. • Repeat measurements after irradiation. ATLAS/CMS Opto WG March '11

  8. Fibre Reliability Testing • Fibre manufacturers have performed extensive reliability testing but very little is known about reliability after radiation. • Need to study core (glass) and buffer separately. • n – the corrosion susceptibility • m – the Weibull parameter ATLAS/CMS Opto WG March '11

  9. Pull Testing for Core • Measurements of pull strength for fibre samples can be used to check fibre reliability. • Measure many samples at a fixed pulling speed  Weibull analysis • Measure median pull strength at different pulling speeds  stress corrosion parameter. • Determine n and m before and after irradiation. • Also compare with manufacturer’s specs. ATLAS/CMS Opto WG March '11

  10. Clamps & capstans The pull tester (polycarbonate shield protects against flying shards when the fibre fractures)

  11. Weibull Plot Construction Collect sample of pull test strengths for a speed of 50mm/min. The “extrinsic distribution”, due to infrequent weak spots caused by contamination by dust & other factors during the manufacturing process The “intrinsic distribution” from which the m-value is determined ATLAS/CMS Opto WG March '11

  12. n values from fit of mean pull strength vs. speed. Our acceptable n-plot for SMF 28: gives a realistic value for n of 25.5 Our unacceptable n-plot for Infinicor SX+: gives an uncharacteristically low value for n of 14.8 ATLAS/CMS Opto WG March '11

  13. Next steps • Repeat pre-irradiation tests for Infinicor SX+, • irradiaite SMF28 and Infinicor to 500 kGy at Mega Curie • Repeat measurements after irradiation. • Perform these measurements for fibres selected as qualified from cold radiation tests. ATLAS/CMS Opto WG March '11

  14. Buffer Quality • Buffer is important to take stress from any micro-bending of fibre  controlled micro-bending test. • Wind the fibre onto a drum with correct grade of sandpaper  microbending and measure increase in attenuation with OTDR. • Before and after irradiation tests, • First trial with Draka fibre performed by Bertil Arvidsson at Fibreson. • Use this test for all fibres that pass cold fibre radiation qualification, ATLAS/CMS Opto WG March '11

  15. Fibre Cables • Plan to use Birmingham cyclotron • 26 MeV protons penetrate fibre • Scanning table constructed will allow 1m of cable to be irradiated to SLHC fluence/dose. • First try in April to look for any dramatic effects on Ericsson and Fujikura cable • Ask Fibresson to perform before and after pull testing. ATLAS/CMS Opto WG March '11

  16. Batch Testing in Production • Fibres • Need to perform cold radiation test on fibres from every spool. • Can we use lower dose for this QA step? • Mechanical testing • Will this be required on production batches? • Connectors and splitters • Radiation tests of samples from production, ATLAS/CMS Opto WG March '11

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