Conveners
Applied Superconductivity in HEP
- Flavio Gatti (GE)
- Giovanni Signorelli (PI)
Prof.
Akira YAMAMOTO
(KEK and CERN)
5/26/15, 5:50 PM
S3 - Applied Superconductivity in HEP
Oral
Applied superconductivity has been a key and inevitable technology to realize energy-frontier particle accelerators and detectors in high energy physics. We will review the technical advances and future prospects, focusing on superconducting accelerator magnets and RF devices and on large-scale detector magnets. Recent progress in superconducting technology for detecting particles will be...
Dr
Alexander V. Zlobin
(Fermi National Accelerator Laboratory), Dr
Emanuela Barzi
(Fermi National Accelerator Laboratory)
5/26/15, 6:10 PM
S3 - Applied Superconductivity in HEP
Oral
The High Field Magnet Program at Fermilab is developing advanced high-field superconducting magnets, materials and technologies for present and future particle accelerators. Since the late 90s the program has focused 10-15 T magnets based on Nb3Sn superconductor. The Program has contributed to several advances in Nb3Sn strand, cable and accelerator magnet technologies. The most important...
Dr
Roberto Leoni
(IFN-CNR, Istituto di Fotonica e Nanotecnologie, Via Cineto Romano 42, 00156 Roma, Italy)
5/26/15, 6:30 PM
S3 - Applied Superconductivity in HEP
Oral
Quantum information processing with photons relies on single-photon sources, passive circuit elements and single-photon detectors. In order to take advantage of quantum physics in advanced quantum technologies such as quantum simulation and quantum computing, tens of photons must be generated, manipulated and detected. However, when the number of photons exceeds a few, bulk optics becomes...
Dr
Martino Calvo
(Institut Néel, CNRS Grenoble)
5/26/15, 6:50 PM
S3 - Applied Superconductivity in HEP
Oral
Kinetic Inductance Detectors (KID) is a novel detector technology based on superconducting resonators. Since their first demonstration in 2003, they have rapidly developed and are today a strong candidate for present and future experiments in the millimetric band of the electromagnetic spectrum. This has been possible thanks to the unique features of such devices. In particular, they couple a...
Flavio Gatti
(GE)
5/26/15, 7:10 PM
Oral