MCTF Alexander Zlobin MUTAC Meeting 8-10 April 2008 1 MCTF Magnet and HTS Conductor R&D.

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Presentation transcript:

MCTF Alexander Zlobin MUTAC Meeting 8-10 April MCTF Magnet and HTS Conductor R&D

MCTF Alexander Zlobin MUTAC Meeting 8-10 April MCTF Magnet R&D Directions Magnet R&D (with Muons Inc.) –Conceptual design studies of Helical Cooling Channel Magnet System –Development of Helical Solenoid for Cooling Demonstration Experiment (CDE) –Very High Field Solenoid R&D R&D for SC Materials in support of magnet program (with National Labs and Industry) –Participation in National HTS Program Contribute where possible to the conceptual design of detector magnets

MCTF Alexander Zlobin MUTAC Meeting 8-10 April HCC Magnet System Design Studies The helical solenoid concept (Fermilab) –Alternative to straight solenoid with helical D and Q coils –Ring coils follow the helical beam orbit produsing solenoidal, helical D and Q fields Multi stage HCC study –Wide range of fields, helical periods, apertures –Straight solenoid concept does not work for high- field/small-aperture sections –Field tuning more complicate at high fields –NbTi, Nb3Sn/Nb3Al and probably HTS in final stage Studies will continue

MCTF Alexander Zlobin MUTAC Meeting 8-10 April HS for Cooling Demonstration Experiment Status: conceptual design complete solenoid matching sections Next: engineering design mechanical structure field quality, tolerances cryostat quench protection Goals: cooling demonstration, HS technology development Features: SSC NbTi cable, B max ~6 T, coil ID ~0.5m, length ~10m => Complex magnet, significant magnetic forces and stored energy, must eventually incorporate RF.

MCTF Alexander Zlobin MUTAC Meeting 8-10 April Outer bandage rings Inner bobbin Superconducting coils (one layer, hard bend wound) 4-coil Helical Demonstration Model Goals: –validate mechanical structure and fabrication methods –study quench performance and margins, field quality, quench protection Features: –use existing SSC cable –fields and forces as in the HS for CDE Funded by MCTF and Muons Inc.

MCTF Alexander Zlobin MUTAC Meeting 8-10 April coil model Analysis Magnetic and mechanical engineering design complete: 3D field distribution 3D stress/strain analysis in coils and mechanical structure

MCTF Alexander Zlobin MUTAC Meeting 8-10 April coil fabrication status Parts: design complete procurement in progress Cable: Extracted strand samples were tested Practice winding complete: cable stability and support during hard bend winding coil size control Instrumentation: development started Model test: September 2008

MCTF Alexander Zlobin MUTAC Meeting 8-10 April HCC R&D Plans for the next few years Directions of magnet R&D program are dictated by muon collaboration and MCTF goals Possible directions: –Design and build 1/4 period section of NbTi HCC incorporating RF Solve RF/magnet integration issues, cryostat design, etc. –Design and build multi-period helical solenoid for 6-D Cooling Demonstration Experiment Validate tracking Better understand and optimize matching sections Design magnet integrated with experiment

MCTF Alexander Zlobin MUTAC Meeting 8-10 April High Field Solenoid Development Used in the final muon cooling stage Basic Parameters –Inner bore diameter 50 mm –Length 1 meter –Fields 30 T or higher  HTS materials Required R&D –Design Studies Identify key issues Determine R&D directions –Advances in Conductor R&D

MCTF Alexander Zlobin MUTAC Meeting 8-10 April T Solenoid Conceptual Design Study BSCCO Nb3Sn NbTi B Coil radius, m Key design issues: superconductor Jc effect of field direction on Ic in case of HTS tapes stress management quench protection cost Solutions: hybrid coil design coil sections

MCTF Alexander Zlobin MUTAC Meeting 8-10 April T Solenoid: next steps Build and test smaller HTS and HTS/Nb3Sn hybrid solenoid models –Field range: up to T –HTS material: BSCCO (G1) or YBCO (G2) –Conductor type: round strands, cables or tapes –Technologies: React-&-wind or wind-&-react Motivate progress in HTS conductor technology –National Conductor Program (see Alvin’s talk)

MCTF Alexander Zlobin MUTAC Meeting 8-10 April MCTF Conductor Program Emphasis on HTS strands, tapes and cables –Nb3Sn and Nb3Al strand and cable R&D is supported by other programs (DOE, LARP, NIMS/FNAL/KEK, CARE, etc.) Collaborator as part of National HTS Program R&D infrastructure –Two Oxford Instrument Teslatron stations with 16T and 17T solenoids, and test temperatures from 1.9K to 70K –42-strand cabling machine –Probes to measure Ic of HTS strands and tapes as a function of field, temperature, and field orientation transverse pressure sensitivity of strand Ic in a cable –28 kA SC transformer to test cables at self-field in LHe

MCTF Alexander Zlobin MUTAC Meeting 8-10 April Strand and Tape Samples

MCTF Alexander Zlobin MUTAC Meeting 8-10 April E. Barzi, LTSW 2007, Oct , 2007, South Lake Tahoe, CA 14 October 30, 2007 HTS and LTS Performance at 4.2 K Measurement on round strands and tapes in magnetic fields up to 17T –Ic for tapes depends on field orientation –Detailed measurement of Ic angular dependence for HTS tapes at fields up to T –LTS samples show better performance than HTS at low fields Input data for High Field HTS Solenoid design studies

MCTF Alexander Zlobin MUTAC Meeting 8-10 April High field HTS tests HTS tape Ic measurements at 4.2 K (with NIMS, Japan) –transverse fields up to 28T –two field orientations Input data for High Field HTS Solenoid design studies –reduce uncertainty in conductor performance at high fields

MCTF Alexander Zlobin MUTAC Meeting 8-10 April BSCCO Rutherford Cables Goals: increase conductor Ic reduce magnet inductance –Important for magnet quench protection Issues: Ic degradation after cabling –Determine design criteria and cabling procedures –low degradation at packing factors <87% Cable HT optimization –reduce Ag leaks and Ic degradation Transverse pressure sensitivity studies –determine pressure limits

MCTF Alexander Zlobin MUTAC Meeting 8-10 April Present and Future HTS R&D Plans HTS reaction site for strands and small coils –Convert existing small oven –Go through a safety review Collaborate with DOE labs, industries and Universities through National HTS Conductor program –Round Robin test of HTS round wire –Collaboration with NHFML on short sample and coil reaction cycle –Start small coil test program to study technology and quench issues –Support SBIR on HTS development

MCTF Alexander Zlobin MUTAC Meeting 8-10 April NF Detector R&D: Magnetic Cavern Cable based design (Fermilab) Features –10 solenoids –15-m long 15 m ID each –Bnom~0.5 T (50% margin) –1 m iron wall, B~2.4 T –Good field uniformity Solve technical problems Reduce detector cost Solenoid strongback Thermal shield STL cable Invar pipe with SC strands, stabilizer and LHe

MCTF Alexander Zlobin MUTAC Meeting 8-10 April turn Solenoid Model (proposal) Goals: Optimize cable design, thermal shield and support structure –Needs modification to provide long piece length (~5-7 km) and flexibility (bending diameter 15m) Fabricate and test ~100-m long cable prototype Test solenoid support structure and assembly procedure Test cable support structure (axial and radial mechanics) Measure heat leaks to LN and LHe Unique opportunity to model a short section of the detector before fabrication.

MCTF Alexander Zlobin MUTAC Meeting 8-10 April Summary Magnets are one of the enabling technologies for the Muon Collider/Neutrino Factory The development of practical muon collider magnets is a long term investment MCTF Magnet program has already created a strong foundation and has made progress in all key directions Important on going and near term activities –Support the National HTS R&D program –Design and possibly build relevant demonstration magnets NbTi Helical Solenoids without and with RF Moderate field solenoids and very high field solenoids in support of Muon Cooling Experiments –Continue the conceptual design studies of collider ring, IR and detector magnets It is critical for the community to increase the support of advanced magnet and HTS R&D –i.e. stable funding and manpower resources