Your search keyword '"Faus-Golfe, Angeles"' showing total 4 results

1. FLASH$\mathrm{{\ell}ab@}$PITZ: New R&D Platform with Unique Capabilities for Electron FLASH and VHEE Radiation Therapy and Radiation Biology under Preparation at PITZ

Author

Stephan, Frank, Gross, Matthias, Grebinyk, Anna, Aboulbanine, Zakaria, Amirkhanyan, Zohrab Gevorg, Budach, Volker, Ehrhardt, Vincent Henrique, Faus-Golfe, Angeles, Frohme, Marcus, Germond, Jean-Francois, Good, James David, Gruener, Florian, Kaul, David, Krasilnikov, Mikhail, Leavitt, Ron, Leemans, Wim, Li, Xiangkun, Loisch, Gregor, Mueller, Frieder, Müller, Georg, Obier, Frank, Oppelt, Anne, Philipp, Sebastian, Qian, Houjun, Reindl, Judith, Riemer, Felix, Sack, Martin, Schmitz, Michael, Schnautz, Tobias, Schüller, Andreas, Staufer, Theresa, Stegmann, Christian, Tsakanova, Gohar, Vozenin, Marie-Catherine, Weise, Hans, Worm, Steven, and Zips, Daniel

Subjects

ddc:610

Abstract

Physica medica 104, 174 - 187 (2022). doi:10.1016/j.ejmp.2022.10.026, At the Photo Injector Test facility at DESY in Zeuthen (PITZ), an R&D platform for electron FLASH and very high energy electron radiation therapy and radiation biology is being prepared FLASH$\mathrm{{\ell}ab@}$PITZ). The beam parameters available at PITZ are worldwide unique. They are based on experiences from 20 + years of developing high brightness beam sources and an ultra-intensive THz light source demonstrator for ps scale electron bunches with up to 5 nC bunch charge at MHz repetition rate in bunch trains of up to 1 ms length, currently 22 MeV (upgrade to 250 MeV planned). Individual bunches can provide peak dose rates up to 10$^{14}$ Gy/s, and 10 Gy can be delivered within picoseconds. Upon demand, each bunch of the bunch train can be guided to a different transverse location, so that either a “painting” with micro beams (comparable to pencil beam scanning in proton therapy) or a cumulative increase of absorbed dose, using a wide beam distribution, can be realized at the tumor. Full tumor treatment can hence be completed within 1 ms, mitigating organ movement issues. With extremely flexible beam manipulation capabilities, FLASHlab@PITZ will cover the current parameter range of successfully demonstrated FLASH effects and extend the parameter range towards yet unexploited short treatment times and high dose rates. A summary of the plans for FLASH$\mathrm{{\ell}ab@}$PITZ and the status of its realization will be presented., Published by Elsevier, Amsterdam

Published

2022

2. The International Linear Collider: A Global Project

Author

Bambade, Philip, Barklow, Tim, Behnke, Ties, Berggren, Mikael, Brau, James, Burrows, Philip, Denisov, Dmitri, Faus-Golfe, Angeles, Foster, Brian, Fujii, Keisuke, Fuster, Juan, Gaede, Frank, Grannis, Paul, Grojean, Christophe, Hutton, Andrew, List, Benno, List, Jenny, Michizono, Shinichiro, Miyamoto, Akiya, Napoly, Olivier, Peskin, Michael, Poeschl, Roman, Simon, Frank, Strube, Jan, Tian, Junping, Titov, Maksym, Vos, Marcel, White, Andrew, Wilson, Graham, Yamamoto, Akira, Yamamoto, Hitoshi, and Yokoya, Kaoru

Subjects

Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, Physics::Accelerator Physics, High Energy Physics::Experiment, 7. Clean energy

Abstract

The International Linear Collider (ILC) is now under consideration as the next global project in particle physics. In this report, we review of all aspects of the ILC program: the physics motivation, the accelerator design, the run plan, the proposed detectors, the experimental measurements on the Higgs boson, the top quark, the couplings of the W and Z bosons, and searches for new particles. We review the important role that polarized beams play in the ILC program. The first stage of the ILC is planned to be a Higgs factory at 250 GeV in the centre of mass. Energy upgrades can naturally be implemented based on the concept of a linear collider. We discuss in detail the ILC program of Higgs boson measurements and the expected precision in the determination of Higgs couplings. We compare the ILC capabilities to those of the HL-LHC and to those of other proposed e+e- Higgs factories. We emphasize throughout that the readiness of the accelerator and the estimates of ILC performance are based on detailed simulations backed by extensive RandD and, for the accelerator technology, operational experience.

3. The International Linear Collider. A Global Project

Author

Aihara, Hiroaki, Bagger, Jonathan, Bambade, Philip, Barish, Barry, Behnke, Ties, Bellerive, Alain, Berggren, Mikael, Brau, James, Breidenbach, Martin, Bozovic-Jelisavcic, Ivanka, Burrows, Philip, Caccia, Massimo, Colas, Paul, Denisov, Dmitri, Eigen, Gerald, Evans, Lyn, Faus-Golfe, Angeles, Foster, Brian, Fujii, Keisuke, Fuster, Juan, Gaede, Frank, Gao, Jie, Grannis, Paul, Grojean, Christophe, Hutton, Andrew, Idzik, Marek, Jeremie, Andrea, Kawagoe, Kiyotomo, Komamiya, Sachio, Lesiak, Tadeusz, Levy, Aharon, List, Benno, List, Jenny, Michizono, Shinichiro, Miyamoto, Akiya, Mnich, Joachim, Montgomery, Hugh, Murayama, Hitoshi, Napoly, Olivier, Okada, Yasuhiro, Pagani, Carlo, Peskin, Michael, Poeschl, Roman, Richard, Francois, Robson, Aidan, Schoerner-Sadenius, Thomas, Stanitzki, Marcel, Stapnes, Steinar, Strube, Jan, Suzuki, Atsuto, Tian, Junping, Titovx, Maksym, Vos, Marcel, Walkerx, Nicholas, Weise, Hans, White, Andrew, Wilson, Graham, Winter, Marc, Yamada, Sakue, Yamamoto, Akira, Yamamoto, Hitoshi, and Yamashita, Satoru

Subjects

Physics::Accelerator Physics, 7. Clean energy

Abstract

A large, world-wide community of physicists is working to realise an exceptional physics program of energy-frontier, electron-positron collisions with the International Linear Collider (ILC). This program will begin with a central focus on high-precision and model-independent measurements of the Higgs boson couplings. This method of searching for new physics beyond the Standard Model is orthogonal to and complements the LHC physics program. The ILC at 250 GeV will also search for direct new physics in exotic Higgs decays and in pair-production of weakly interacting particles. Polarised electron and positron beams add unique opportunities to the physics reach. The ILC can be upgraded to higher energy, enabling precision studies of the top quark and measurement of the top Yukawa coupling and the Higgs self-coupling. The key accelerator technology, superconducting radio-frequency cavities, has matured. Optimised collider and detector designs, and associated physics analyses, were presented in the ILC Technical Design Report, signed by 2400 scientists. There is a strong interest in Japan to host this international effort. A detailed review of the many aspects of the project is nearing a conclusion in Japan. Now the Japanese government is preparing for a decision on the next phase of international negotiations, that could lead to a project start within a few years. The potential timeline of the ILC project includes an initial phase of about 4 years to obtain international agreements, complete engineering design and prepare construction, and form the requisite international collaboration, followed by a construction phase of 9 years.

4. The International Linear Collider. A European Perspective

Author

Bambade, Philip, Behnke, Ties, Berggren, Mikael, Bozovic-Jelisavcic, Ivanka, Burrows, Philip, Caccia, Massimo, Colas, Paul, Eigen, Gerald, Evans, Lyn, Faus-Golfe, Angeles, Foster, Brian, Fuster, Juan, Gaede, Frank, Grojean, Christophe, Idzik, Marek, Jeremie, Andrea, Lesiak, Tadeusz, Levy, Aharon, List, Benno, List, Jenny, Mnich, Joachim, Napoly, Olivier, Pagani, Carlo, Poeschl, Roman, Richard, Francois, Robson, Aidan, Schoerner-Sadenius, Thomas, Stanitzki, Marcel, Stapnes, Steinar, Titov, Maksym, Vos, Marcel, Walker, Nicholas, Weise, Hans, Winter, Marc, and Brau, Jim

Subjects

positron: polarized beam, energy: high, accelerator, Physics::Instrumentation and Detectors, electron positron: linear collider, electron: polarized beam, new physics, superconductivity, electron positron: colliding beams, cavity, electron positron: annihilation, 7. Clean energy, ILC Coll, particle: interaction, WIMP: pair production, 13. Climate action, Physics::Accelerator Physics, High Energy Physics::Experiment, proposed experiment, coupling: Yukawa

Abstract

The International Linear Collider (ILC) being proposed in Japan is an electron-positron linear collider with an initial energy of 250 GeV. The ILC accelerator is based on the technology of superconducting radio-frequency cavities. This technology has reached a mature stage in the European XFEL project and is now widely used. The ILC will start by measuring the Higgs properties, providing high-precision and model-independent determinations of its parameters. The ILC at 250 GeV will also search for direct new physics in exotic Higgs decays and in pair-production of weakly interacting particles. The use of polarised electron and positron beams opens new capabilities and scenarios that add to the physics reach. The ILC can be upgraded to higher energy, enabling precision studies of the top quark and measurement of the top Yukawa coupling and the Higgs self-coupling. The international -- including European -- interest for the project is very strong. Europe has participated in the ILC project since its early conception and plays a major role in its present development covering most of its scientific and technological aspects: physics studies, accelerator and detectors. The potential for a wide participation of European groups and laboratories is thus high, including important opportunities for European industry. Following decades of technical development, R&D;, and design optimisation, the project is ready for construction and the European particle physics community, technological centers and industry are prepared to participate in this challenging endeavour.