Zobrazeno 1 - 10
of 671
pro vyhledávání: '"DiMarco J"'
Autor:
Kashikhin, V. V., Cohan, S., DiMarco, J., Kiemschies, O., Krave, S., Lombardo, V., Marinozzi, V., Orris, D., Stoynev, S., Turrioni, D., Chavda, A. K., Sambangi, U., Korupolu, S., Peram, J., Arjun, A., Goel, C., Sandra, J. Sai, Yerraguravagari, V., Schmidt, R., Selvamanickam, V., Majkic, G., Galstyan, E., Mai, N., Selvamanickam, K.
Rare-Earth Barium Copper Oxide (REBCO) coated conductors are an attractive option for application in high field accelerator magnets due to their high critical field and the convenience of fabrication without heat treatment compared to some other supe
Externí odkaz:
http://arxiv.org/abs/2412.04696
Autor:
Baldini, M., Ambrosio, G., Apollinari, G., Blowers, J., Bossert, R., Carcagno, R., Chlachidze, G., DiMarco, J., Feher, S., Krave, S., Lombardo, V., Martin, L., Narug, C., Nicol, T. H., Nikolic, V., Nobrega, A., Marinozzi, V., Orozco, C., Page, T., Stoynev, S., Strauss, T., Turenne, M., Turrioni, D., Vouris, A., Yu, M., Baskys, A., Cheng, D., Croteau, J. F., Ferracin, P., Fajardo, L. Garcia, Lee, E., Lin, A., Marchev-sky, M., Naus, M., Pan, H., Pong, I., Prestemon, S., Ray, K., Sabbi, G., Sanabria, C., Vallone, G., Wang, X., Amm, K., Anerella, M., Yahia, A. Ben, Hocker, H., Joshi, P., Muratore, J., Schmalzle, J., Song, H., Wanderer, P.
Publikováno v:
JACoW IPAC2024 (2024) THYN1
The Large Hadron Collider will soon undergo an upgrade to increase its luminosity by a factor of ~10 [1]. A crucial part of this upgrade will be replacement of the NbTi focusing magnets with Nb3Sn magnets that achieve a ~50% increase in the field str
Externí odkaz:
http://arxiv.org/abs/2405.18530
Autor:
Baldini, M., Chlachidze, G., Apollinari, G., Dimarco, J., Feher, S., Nikolic, V., Orris, D., Rabehl, R., Stoynev, S., Strauss, T., Tartaglia, M., Vouris, A.
The High Luminosity upgrade of the Large Hadron Collider (HL-LHC) at CERN will include eight cryo-assemblies that are expected to be fabricated and delivered to CERN by the US HL-LHC Accelerator Upgrade Project (AUP) as part of the U.S. contributions
Externí odkaz:
http://arxiv.org/abs/2403.00171
Autor:
Stoynev, S., Ambrosio, G., Amm, K., DiMarco, J., Feher, S., Ferracin, P., Marinozzi, V., Prestemon, S., Yahia, A. B.
Publikováno v:
IEEE Trans.Appl.Supercond. 34 (2024) 5, 4900606
The high-luminosity LHC upgrade requires stronger than LHC low-beta quadrupole magnets to reach the luminosity goals of the project. The project is well advanced and HL-LHC quadrupole magnets are currently being commissioned in US Labs (MQXFA magnets
Externí odkaz:
http://arxiv.org/abs/2402.03461
Autor:
DiMarco, J.
Publikováno v:
IEEE Trans.Appl.Supercond. 34 (2024) 5, 9000604
The use of Printed Circuit Boards (PCBs) for the inductive pick-up windings of rotating coil probes has made the construction of these precision magnetic measurement devices much more accessible. This paper discusses the design details for PCBs which
Externí odkaz:
http://arxiv.org/abs/2401.10374
Autor:
DiMarco, J., Akella, P., Ambrosio, G., Baldini, M., Chlachidze, G., Feher, S., Nogiec, J., Nikolic, V., Stoynev, S., Strauss, T., Tartaglia, M., Thompson, P., Walbridge, D.
MQXFA production series quadrupole magnets are being built for the Hi-Lumi (HL) LHC upgrade by the US Accelerator Upgrade Project (US-HL-LHC AUP). These magnets are being placed in pairs, as a cold mass, within cryostats at Fermilab, and are being te
Externí odkaz:
http://arxiv.org/abs/2312.08166
Autor:
Ambrosio, G., Amm, K., Anerella, M., Apollinari, G., Izquierdo, G. Arnau, Baldini, M., Ballarino, A., Barth, C., Yahia, A. Ben, Blowers, J., De Sousa, P. Borges, Bossert, R., Bulat, B., Carcagno, R., Cheng, D. W., Chlachidze, G., Cooley, L., Crouvizier, M., Devred, A., DiMarco, J., Feher, S., Ferracin, P., Troitino, J. Ferradas, Fajardo, L. Garcia, Gourlay, S., Hocker, H. M., Bermudez, S. Izquierdo, Joshi, P., Krave, S., Lee, E. M., Levitan, J., Lombardo, V., Lu, J., Marchevsky, M., Marinozzi, V., Moros, A., Muratore, J., Naus, M., Nobrega, F., Page, T., Pong, I., Perez, J. C., Prestemon, S., Ravaioli, E., Ray, K. L., Sabbi, G., Schmalzle, J., Seyl, J., Sgobba, S., Stoynev, S., Strauss, T., Todesco, E., Turrioni, D., Vallone, G., Van Weelderen, R., Wanderer, P., Wang, X., Yu, M.
By the end of October 2022, the US HL-LHC Accelerator Upgrade Project (AUP) had completed fabrication of ten MQXFA magnets and tested eight of them. The MQXFA magnets are the low beta quadrupole magnets to be used in the Q1 and Q3 Inner Triplet eleme
Externí odkaz:
http://arxiv.org/abs/2301.09523
Autor:
Ambrosio, G., Amm, K., Anerella, M., Apollinari, G., Arbelaez, D., Auchmann, B., Balachandran, S., Baldini, M., Ballarino, A., Barua, S., Barzi, E., Baskys, A., Bird, C., Boerme, J., Bosque, E., Brouwer, L., Caspi, S., Cheggour, N., Chlachidze, G., Cooley, L., Davis, D., Dietderich, D., DiMarco, J., English, L., Fajardo, L. Garcia, Fernandez, J. L. Rudeiros, Ferracin, P., Gourlay, S., Gupta, R., Hafalia, A., Hellstrom, E., Higley, H., Hossain, I., Jewell, M., Jiang, J., Juchno, GM., Kametani, F., Kashikhin, V., Krave, S., Kumar, M., Kurian, F., Lankford, A., Larbalestier, D., Lee, P., Lee, G. S., Lombardo, V., Marchevsky, M., Marinozzi, V., Messe, C., Minervini, J., Myers, C., Naus, M., Novitski, I., Ogitsu, T., Palmer, M., Pong, I., Prestemon, S., Runyan, C., Sabbi, G. L., Shen, T., Stoynev, S., Strauss, T., Tarantini, C., Teyber, R., Trociewitz, U., Turqueti, M., Turenne, M., Turrioni, D., Vallone, G., Velev, G., Viarengo, S., Wang, L., Wang, X., Xu, X., Yamamoto, A., Yin, S., Zlobin, A.
Colliders are built on a foundation of superconducting magnet technology that provides strong dipole magnets to maintain the beam orbit and strong focusing magnets to enable the extraordinary luminosity required to probe physics at the energy frontie
Externí odkaz:
http://arxiv.org/abs/2203.13985
Autor:
Marchevsky, M., Teyber, R., Lee, G. S., Turqueti, M., Baldini, M., Barzi, E., DiMarco, J., Krave, S., Marinozzi, V., Stoynev, S., Joshi, P., Muratore, J., Davis, D.
Future colliders will operate at increasingly high magnetic fields pushing limits of electromagnetic and mechanical stress on the conductor [1]. Understanding factors affecting superconducting (SC) magnet performance in challenging conditions of high
Externí odkaz:
http://arxiv.org/abs/2203.08869
Autor:
Nogiec, J. M., Akella, P., Chlachidze, G., DiMarco, J., Tartaglia, M., Thompson, P., Trombly-Freytag, K., Walbridge, D.
Accelerator magnet test facilities frequently need to measure different magnets on differently equipped test stands and with different instrumentation. Designing a modular and highly reusable system that combines flexibility built-in at the architect
Externí odkaz:
http://arxiv.org/abs/2112.07724