We fabricated three racetrack coils (RC1, RC2, and RC3) from Bi-2212 Rutherford cables (17-strand, thickness × width = 1.44 mm × 7.8 mm, strand diameter = 0.8 mm) and applied overpressure processing heat treatment (OPHT). The quench currents of RC1 and RC2 reached 5268 A and 5781 A, respectively, despite them still, surprisingly, exhibiting some Bi-2212 leakage to the surface. After removing most of the leakages using a simple-to-implement insulation scheme, the quench current of RC3 improved to 6485 A, which is about three times the average quench current of a dozen racetrack coils that had been fabricated and reacted using the conventional 1 bar heat treatment. The results confirm the effectiveness of the OPHT technology and the new leaka...
NbTi accelerator dipoles are limited to magnetic fields (H) of about 10 T, due to an intrinsic uppe...
The critical current density of Bi-2212 round wires has seen significant improvement over the past t...
For future particle accelerators bending dipoles are considered with magnetic fields exceeding $20T$...
We fabricated three racetrack coils (RC1, RC2, and RC3) from Bi-2212 Rutherford cables (17-strand, t...
High-temperature superconductors (HTS) could enable high-field magnets stronger than is possible wit...
Sub-scale coils are being manufactured and tested at Lawrence Berkeley National Laboratory in order ...
Accelerator magnets fabricated using NbTi technology are limited to magnetic fields of about 10 T, d...
Lawrence Berkeley National Laboratory (LBNL) is developing Wind-and-React (W&R) Bi2sr2cacu2o8+δ ...
A racetrack magnet, using Nb{sub 3}Sn superconducting cable reacted before winding, has been fabrica...
Wind & react Bi-2212 inserts have been manufactured and tested inside a wide-bore NbTi-Nb3Sn mag...
Accelerator magnets made with Nb3Sn superconducting coils are currently the most viable candidate te...
NbTi accelerator dipoles are limited to magneticfields (H) of about 10 T, due to an intrinsic upper ...
The use of wind and react bi2212 wire for high field ( >;20 T) insert coils has been demonstrated...
For future particle accelerators bending dipoles are considered with magnetic fields exceeding 20T. ...
We report on the progress in our R&D program, targetedto develop the technology for the application ...
NbTi accelerator dipoles are limited to magnetic fields (H) of about 10 T, due to an intrinsic uppe...
The critical current density of Bi-2212 round wires has seen significant improvement over the past t...
For future particle accelerators bending dipoles are considered with magnetic fields exceeding $20T$...
We fabricated three racetrack coils (RC1, RC2, and RC3) from Bi-2212 Rutherford cables (17-strand, t...
High-temperature superconductors (HTS) could enable high-field magnets stronger than is possible wit...
Sub-scale coils are being manufactured and tested at Lawrence Berkeley National Laboratory in order ...
Accelerator magnets fabricated using NbTi technology are limited to magnetic fields of about 10 T, d...
Lawrence Berkeley National Laboratory (LBNL) is developing Wind-and-React (W&R) Bi2sr2cacu2o8+δ ...
A racetrack magnet, using Nb{sub 3}Sn superconducting cable reacted before winding, has been fabrica...
Wind & react Bi-2212 inserts have been manufactured and tested inside a wide-bore NbTi-Nb3Sn mag...
Accelerator magnets made with Nb3Sn superconducting coils are currently the most viable candidate te...
NbTi accelerator dipoles are limited to magneticfields (H) of about 10 T, due to an intrinsic upper ...
The use of wind and react bi2212 wire for high field ( >;20 T) insert coils has been demonstrated...
For future particle accelerators bending dipoles are considered with magnetic fields exceeding 20T. ...
We report on the progress in our R&D program, targetedto develop the technology for the application ...
NbTi accelerator dipoles are limited to magnetic fields (H) of about 10 T, due to an intrinsic uppe...
The critical current density of Bi-2212 round wires has seen significant improvement over the past t...
For future particle accelerators bending dipoles are considered with magnetic fields exceeding $20T$...
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