B. Barish
(California Institute of Technology, Pasadena)
29/10/2012, 14:10
S. Stapnes
(CERN)
29/10/2012, 14:25
H. Murayama
(LBNL, Berkeley)
29/10/2012, 14:40
Recent discovery of a particle that looks like a Higgs boson provides a very clear target for the near-future linear collider. I will review the capabilities of a low-energy linear collider in elucidating the nature of this new particle. I will emphasize that a precision study may reveal the next energy scale of physics to be targeted by a later big machine.
H. Yamamoto
(Tohoku University, Japan)
29/10/2012, 15:10
At an e+ e- linear collider, the 4-momentum and the spin state of the initial state can be well controlled and the environment of interactions are clean. Taking advantage of these experimental conditions, a linear collider provides unique physics opportunities for the detailed studies of the Higgs particle. In order to fully exploit the physics potential, the detectors need to have resolutions...
Dr
Nicholas Walker
(DESY)
29/10/2012, 16:30
The benefits of using superconducting radio-frequency (SCRF) acceleration for an
electron-positron linear collider have been well documented over the years. The ultra-low cavity wall losses allow the use of long RF pulses, greatly simplifying the RF source, while facilitating high-efficiency acceleration of high-current beams. In addition the low RF frequency (1.3 GHz) significantly reduces...
T. Nelson
(SLAC National Accelerator Laboratory, USA)
29/10/2012, 18:15
During the past few years, the concepts and technologies for solid state
tracking at the ILC have matured to the point where they are largely ready
for implementation. Meanwhile, the advent of the CLIC detector concepts has
introduced some additional challenges, pushing the evolution of these designs
and technologies even further. The status of silicon tracking for the ILC detector...
J.-C. Brient
(CNRS/IN2P3)
30/10/2012, 08:25
The physics program at a future linear collider requires a novel design of the
electromagnetic calorimeter (ECAL), very different to equivalent detectors
used at the LHC. The Particle Flow Approach (PFA) to jet reconstruction
implies an ECAL whose primary goal is to identify individual particle showers
in the dense environment of high energy hadronic jets. This consideration
leads an...
J. Repond
(Argonne National Laboratory, USA)
30/10/2012, 08:50
To fully exploit the physics potential of a future Lepton Collider will require unprecedented jet energy and (di)-mass resolution. Currently two complementary approaches are being pursued to achieve this goal: Particle Flow Algorithms (PFAs) and Dual Readout (DR) calorimetry. The former requires imaging calorimeters with extremely fine spatial segmentation. The latter requires the measurement...
S. Kulis
(AGH University of Science and Technology, Cracow, Poland)
30/10/2012, 09:15
A report will be given about the design of the very forward calorimeters, their functionality, and the performance of prototype sensor planes assembled with dedicated FE ASICs in test beams. These sensor planes constitute the key components to built compact and finely segmented sampling calorimeters as prototypes of very forward calorimeters. Also the R&D on special detectors for muon...
M. Demarteau
(Argonne National Laboratory, Argonne, USA)
30/10/2012, 09:30
Although the actual construction date of the ILC accelerator and its detectors is uncertain, the impact of the R&D for ILC detectors is very real. The deep impact of the work initiated by and carried out within the ILC detector community on the particle physics community and beyond will be discussed.
Prof.
Erika Garutti
(University of Hamburg)
30/10/2012, 10:30
From imaging calorimeters for particle physics to imaging cancerous cells in a human body, the detector technologies established for particle flow calorimeters at linear collider detectors enable unprecedented spatial resolution and novel multi-modality designs in positron emission tomography detector. A brief overview is given of the current medical projects profiting from ILC research.
C. De La Taille
(IN2P3/CNRS, Paris, France)
30/10/2012, 11:00
Detectors designed for particle-flow calorimetry at the Linear Collider will feature unprecedented granularity (tens of millions of channels) to reconstruct the "image" of showers and accurately reconstruct them. With embedded ultra low power readout electronics, they allow to design large area smart detectors. Various technologies have been studied over the last ten years, from highly...
H. Schmickler
(CERN)
30/10/2012, 12:10
The alignment and stability requirements for a future linear collider are very demanding. The talk will cover the specifications and solutions being studied for pre-aligning and aligning linear collider elements within the CLIC and ILC projects.
T. Favale
(Advanced Energy Systems, Princeton, NJ, USA)
30/10/2012, 14:50
This paper will discuss the criteria for use of SRF technology for industrial applications i.e. when does it make sense to use SRF. Criteria such as capital costs, operating costs and space considerations will be covered. Based on these criteria applications such as flue gas and water treatment as well as most medical applications do not meet the criteria. Applications such as isotope...
S. Lenci
(Communications & Power Industries LLC, Palo Alto, USA)
30/10/2012, 15:40
The presentation will provide an overview of RF Technology that supports Linear Colliders, as various RF sources (klystrons and IOT’s), components (Power Couplers and Barrier Windows), and other related technology. It will include a future outlook towards future devices and the use of similar technologies in a wider research and industry perspective.
M. Matsuoka
(Advanced Accelerator Association Promoting Science & Technology, Tokio, Japan)
30/10/2012, 16:55
Advanced Accelerator Association Promoting Science and Technology (AAA) was established in June 2008 in Japan. The functions of AAA are to facilitate Industry-Government-Academia collaboration and to promote and seek various industrial applications of advanced accelerator and technologies derived from R&D on such accelerator. International Linear Collider (ILC) is one of the main themes of our...