The Superconducting Magnet Group, at Lawrence Berkeley National Laboratory (LBNL), has been developing a canted cosine-theta (CCT) superconducting dipole coil as well as the coil's supporting magnet structure. This contribution reports on the progress in the development of the coil's winding mandrel and its fabrication options. A comprehensive study of the coil's Lorentz forces was performed to validate the winding mandrel's "stress interception" attributes. The design of the external structure and the application of the "Bladder & Key" technology is also discussed. Additionally, the application of these studies to a curved ion-therapy CCT dipole magnet is reported
The critical current density of Bi-2212 round wires has seen significant improvement over the past t...
The U.S. Magnet Development Program (MDP) collaboration is designing a utility mechanical structure ...
The U.S. Magnet Development Program (MDP) is exploring the possibility of combining low-and higherat...
The Superconducting Magnet Group, at Lawrence Berkeley National Laboratory (LBNL), has been developi...
The Canted-Cosine-Theta (CCT) magnet design offer significant reductions in conductor stress by usin...
Canted-Cosine-Theta (CCT) magnet is an accelerator magnet that superposes fields of nested and tilte...
A two-layer Canted-Cosine-Theta (CCT) superconducting dipole magnet was built and tested. The magnet...
The size and weight of ion-beam cancer therapy gantries are frequently determined by a large apertur...
A four-layer canted-cosine-theta 16-T dipole has been designed as a possible candidate for future ha...
A four-layer canted-cosine-theta 16-T dipole has been designed as a possible candidate for future ha...
Abstract: The Canted-Cosine-Theta (CCT) technology has the potential, by its intrinsic stress-manage...
A multilayer high field dipole magnet has been designed for future particle accelerators. The magnet...
Advances in superconducting magnet technology have historically enabled the construction of new, hig...
The following report presents the conceptual design study of the combined Canted Cosine Theta (CCT) ...
At the Paul Scherrer Institute (PSI), the Canted-Cosine-Theta (CCT) magnet program aims at demonstra...
The critical current density of Bi-2212 round wires has seen significant improvement over the past t...
The U.S. Magnet Development Program (MDP) collaboration is designing a utility mechanical structure ...
The U.S. Magnet Development Program (MDP) is exploring the possibility of combining low-and higherat...
The Superconducting Magnet Group, at Lawrence Berkeley National Laboratory (LBNL), has been developi...
The Canted-Cosine-Theta (CCT) magnet design offer significant reductions in conductor stress by usin...
Canted-Cosine-Theta (CCT) magnet is an accelerator magnet that superposes fields of nested and tilte...
A two-layer Canted-Cosine-Theta (CCT) superconducting dipole magnet was built and tested. The magnet...
The size and weight of ion-beam cancer therapy gantries are frequently determined by a large apertur...
A four-layer canted-cosine-theta 16-T dipole has been designed as a possible candidate for future ha...
A four-layer canted-cosine-theta 16-T dipole has been designed as a possible candidate for future ha...
Abstract: The Canted-Cosine-Theta (CCT) technology has the potential, by its intrinsic stress-manage...
A multilayer high field dipole magnet has been designed for future particle accelerators. The magnet...
Advances in superconducting magnet technology have historically enabled the construction of new, hig...
The following report presents the conceptual design study of the combined Canted Cosine Theta (CCT) ...
At the Paul Scherrer Institute (PSI), the Canted-Cosine-Theta (CCT) magnet program aims at demonstra...
The critical current density of Bi-2212 round wires has seen significant improvement over the past t...
The U.S. Magnet Development Program (MDP) collaboration is designing a utility mechanical structure ...
The U.S. Magnet Development Program (MDP) is exploring the possibility of combining low-and higherat...
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