Conveners
WG7 Future Experiments
- Elke-Caroline Aschenauer (BNL)
- Claire Gwenlan (Oxford)
- Wally Melnitchouk (Jefferson Lab)
WG7 Future Experiments
- Claire Gwenlan (Oxford)
- Elke-Caroline Aschenauer (BNL)
- Wally Melnitchouk (Jefferson Lab)
WG7 Future Experiments
- Claire Gwenlan (Oxford)
- Wally Melnitchouk (Jefferson Lab)
- Elke-Caroline Aschenauer (BNL)
WG7 Future Experiments
- Wally Melnitchouk (Jefferson Lab)
- Claire Gwenlan (Oxford)
- Elke-Caroline Aschenauer (BNL)
WG7 Future Experiments
- Elke-Caroline Aschenauer (BNL)
- Claire Gwenlan (Oxford)
- Wally Melnitchouk (Jefferson Lab)
WG7 Future Experiments
- Claire Gwenlan (Oxford)
- Elke-Caroline Aschenauer (BNL)
- Wally Melnitchouk (Jefferson Lab)
Naomi van der Kolk
(MPI Muenchen)
12/04/2016, 16:30
Future Experiments
With the discovery of the Higgs boson at LHC, all particles of the Standard Model have been observed experimentally, yet many questions are left unanswered. The discovery has intensified the planning for future high-energy colliders, which aim to probe the Standard Model and the mechanism of electroweak symmetry breaking with higher precision and to extend and complement the search for new...
Paul Newman
12/04/2016, 16:53
Future Experiments
The Large Hadron Electron Collider is the proposal of an upgrade of the LHC to study ep/eA collisions with a centre-of-mass energy in the TeV regime using an about 60 GeV electron beam. In the future, the lepton beams could be combined with the HE-LHC or FCC hadron beams, to study DIS at even higher energies. In this talk we will present an update of the status of the project, with emphasis on...
Olaf Behnke
(DESY)
12/04/2016, 17:21
Future Experiments
In this talk, we review the possibilities for Higgs studies at the LHeC and the FCC-he. Specifically, we will show recent results on the determination of the $H\to b \bar b$ coupling, and on the progress in the $H\to c \bar c$. We will then discuss the possibility to study at LHeC the coupling of Higgs to the 'dark sector. The final topic is HH production at FCC-he and the sensitivity to...
Matthew Wing
(UCL)
12/04/2016, 17:44
Future Experiments
The possibility of using plasma wakefield acceleration to build an
electron-proton collider (VHEeP) at a centre-of-mass energy of 9 TeV was
presented at the DIS2015 workshop. In this talk, the physics case is
further developed, with more detailed studies at low parton momentum
fractions, x, down to 10^-8. The VHEeP collider also has sensitivity to
the production of leptoquarks...
Claire Gwenlan
(Oxford)
12/04/2016, 18:08
Small-x, Diffraction and Vector Mesons
In this talk we will present a review on the possibilities for small-x studies at the LHeC and the FCC-he. We focus on the possibilities of discriminating standard DGLAP approaches from resummation and saturation scenarios in inclusive, semi-inclusive and exclusive observables. We also discuss the opportunities for studying a totally new kinematic regime in diffractive production, and for...
Prof.
Vladimir Litvinenko
(Stony Brook University)
13/04/2016, 09:00
Future Experiments
In this talk I present current design of our future electron-ion collider (EIC) at BNL, eRHIC. It is based on the existing Relativistic Heavy Ion Collider (RHIC) hadron facility, with two intersecting superconducting rings, each 3.8 km in circumference. We plan adding a polarized electron-beam with energy tunable within the 5-20 GeV range to collide with variety of species in the existing...
Dr
Yuhong Zhang
(Jefferson Lab)
13/04/2016, 09:23
Future Experiments
The new NSAC Long Range Plan endorses construction of a high energy high luminosity polarized electron-ion collider in US for reaching new QCD frontier. JLEIC, a Jefferson Lab ring-ring design of electron-ion collider based on the CEBAF recirculating linac, will enable collisions of electrons with energy up to 10 GeV and either protons with energy up to 100 GeV, or heavy ions with energy up to...
Dr
Yuhong Zhang
(Jefferson Lab)
13/04/2016, 09:46
Future Experiments
The recent proposal of CepC and SppC, the next energy frontier e+e- and pp circular colliders by IHEP, China, in a common accelerator complex, provides an opportunity to realize collisions of protons or ions with electrons or positrons in an ultra-high range of center-of-mass energy up to 4.2 TeV. This paper presents a preliminary design study of this high energy e-p/A collider based on the...
Aidan Robson
(Glasgow)
13/04/2016, 10:09
Future Experiments
The Compact Linear Collider (CLIC) is a multi-TeV electron-positron collider under development. It offers the potential for a rich precision physics programme, combined with sensitivity to a wide range of new phenomena. To optimise its physics output CLIC is foreseen to be built and operated in several energy stages, ranging from ~350 GeV to 3 TeV centre-of mass energy.
The CLIC physics...
Dr
Alexander Kiselev
(Brookhaven National Lab)
13/04/2016, 11:00
Future Experiments
The 2015 Long Range Plan for Nuclear Science in the US recommended a high-energy high-luminosity polarized Electron-Ion Collider
as the highest priority for new facility construction following the completion of presently ongoing projects. The main physics topics to be explored at this new facility are (i) the polarized sea quark and gluon
distributions in the nucleon, (ii) QCD dynamics of...
Dr
Klaus Dehmelt
(Stony Brook University)
13/04/2016, 11:23
Future Experiments
eRHIC is one of the options proposed as a high luminosity, polarized Electron-Ion Collider (EIC) that is based on using one of the RHIC hadron rings and a multipass Energy Recovery Linac. A beam of polarized electrons with an energy up to 21 GeV would collide with a variety of ion species, from polarized protons with a top energy of 250 GeV to fully-stripped uranium ions with energies up to...
Dr
Rik Yoshida
(JLab)
13/04/2016, 11:46
Future Experiments
The Electron-Ion Collider (EIC) is envisioned as the next-generation U.S. facility to study quarks and gluons in strongly interacting matter. The broad physics program of the EIC aims to precisely image gluons in nucleons and nuclei and to reveal the origin of the nucleon spin by colliding polarized electrons with polarized protons, polarized light ions, and heavy nuclei at high luminosity....
Wim Cosyn
(Ghent University)
13/04/2016, 12:09
Future Experiments
An Electron-Ion Collider (EIC) would enable next-generation measurements of DIS on
light nuclei (deuteron, 3He, ...) with detection of nucleons and fragments in the forward region and measurement of their recoil momentum ("spectator tagging"). Such experiments allow one to control the nuclear configuration during the high-energy process and could be used for (a) precision measurements of...
Dr
Markus Diefenthaler
(Jefferson Lab)
13/04/2016, 12:32
Future Experiments
The Electron-Ion Collider (EIC) is envisioned as the next-generation U.S. facility to study quarks and gluons in strongly interacting matter. The broad physics program of the EIC aims to precisely image gluons in nucleons and nuclei and to reveal the origin of the nucleon spin by colliding polarized electrons with polarized protons, polarized light ions, and heavy nuclei at high luminosity....
Luca Morescalchi
(Pisa)
13/04/2016, 16:30
Future Experiments
The Mu2e Experiment at Fermilab will search for coherent, neutrinoless conversion of muons into electrons in the field of a nucleus with a sensitivity improvement of a factor of 10,000 over previous experiments. Such a charged lepton flavor-violating reaction probes new physics at a scale inaccessible with direct searches at either present or planned high energy colliders. The experiment both...
Ahnnarita Buonaura
(University of Naples)
13/04/2016, 16:53
Future Experiments
SHIP is a new general purpose fixed target facility, whose Technical Proposal has been recently reviewed by the CERN SPS Committee, who recommended that the experiment proceeds further to a Comprehensive Design phase. In its initial phase, the 400GeV proton beam extracted from the SPS will be dumped on a heavy target with the aim of integrating $2\times 10^{20}$ pot in 5 years. A dedicated...
Dr
Carlos Marinas
(University of Bonn)
13/04/2016, 17:16
Future Experiments
The Belle II experiment at the asymmetric $e^+e^-$ SuperKEKB collider is a major upgrade of the Belle experiment, which ran at the KEKB collider at the KEK laboratory in Japan. The design luminosity of SuperKEKB is $8\times 10^{35}$~cm$^{-2}$\,s$^{-1}$, which is about 40 times higher than that of KEKB. Commissioning of the main ring of SuperKEKB has started in February of this year and...
Dr
Hua YE
(DESY)
13/04/2016, 17:39
Future Experiments
The Belle II experiment at the SuperKEKB collider is a major upgrade of the KEK ``$B$ factory'' facility in Tsukuba, Japan. Phase 1 commissioning of the main ring of SuperKEKB has started in February 2016 and first physics data will be recorded in the second half of 2017 during the so-called Phase~2 commissioning, when the Belle II detector will be operated still without its vertex...
Dr
Gianluca Inguglia
(DESY)
13/04/2016, 18:02
Future Experiments
The Belle II experiment at the SuperKEKB collider is a major upgrade of the KEK ``$B$ factory'' facility in Tsukuba, Japan. The machine is designed for an instantaneous luminosity of $8\times 10^{35}$~cm$^{-2}$\,s$^{-1}$, and the experiment is expected to accumulate a data sample of about 50 ab$^{-1}$ well within the next decade. With this amount of data, decays sensitive to physics beyond the...
Dr
Andrii Verbytskyi
(Max-Planck Institut für Physik)
14/04/2016, 09:00
Future Experiments
The ZEUS data preservation (ZEUS DP) project assures continued access to the data and documentation related to the experiment.
It aims to provide the ability to continue the generation of valuable scientific results from these data in the future.
This talk presents analysis opportunities within the ZEUS DP project and its benefits for the physics community.
The implications of the...
Tomas Davidek
(Charles University, Prague)
14/04/2016, 09:23
Future Experiments
The Tile Calorimeter (TileCal) is the central hadronic calorimeter of the ATLAS experiment at the LHC. Jointly with the other calorimeters it is designed for reconstruction of hadrons, jets, tau-particles and missing transverse energy. It also assists in the muon identification. A summary of the upgrades and performance results for TileCal using pp collisions from the initial LHC Run II at 13...
Magdalena Slawinska
(Nikhef National institute for subatomic physics)
14/04/2016, 09:46
Future Experiments
Run-I at the LHC was very successful with the discovery of a new boson
with properties compatible with those of the Higgs boson predicted by
Standard Model. Precise measurements of the boson properties, and the
discovery of physics beyond the Standard Model, are primary goals of
the just restarted LHC running at 13 TeV collision energy and all future running at the LHC. The physics...
Marc Pelizaeus
(Ruhr-University Bochum)
14/04/2016, 10:09
Future Experiments
The PANDA experiment in preparation to be setup at FAIR (Facility for Antiproton and Ion Research) in Darmstadt, Germany will cover many important aspects of hadron physics
with cooled anti-proton beams of unprecedented intensity and precision in the momentum
range between 1.5 and 15 GeV/c.
The versatile detector is designed to address a rich physics program.
This includes...
Dr
Elke-Caroline Aschenauer
(BNL)
14/04/2016, 11:00
Future Experiments
In this talk several new physics opportunities at an EIC beyond the key measurements discussed in the EIC White paper (arXiv:1212.1701) will be highlighted, this includes measurements with jets, how to get access to intrinsic kT and photon structure.
For all measurements first studies will be presented.
Ms
Xiaoxuan Chu
(Brookhaven National Lab)
14/04/2016, 11:23
Future Experiments
A future Electron-Ion Collider (EIC) facility will deliver electron-nucleon luminosity of 10^33-10^34cm^-2sec^-1 for collisions of polarized electron and protons and heavy ions over a wide range in center-of-mass energies (40 GeV to 145 GeV). One of its promising physics programs is to study the partonic structure of quasi-real photons. By utilizing di-jet measurement in photoproduction...
Or Hen
(MIT)
14/04/2016, 11:46
Future Experiments
The deep inelastic scattering (DIS) cross section for scattering from bound nucleons differs from that of free nucleons. This experimental phenomena, known as the EMC effect, was first discovered 30 years ago and still lack an accepted theoretical explanation. In recent years it became accepted that any explanation to the EMC must include modification of the bound nucleon structure function...
Dr
Dave Gaskell
(Jefferson Lab)
14/04/2016, 12:09
Future Experiments
Polarized beams will play a crucial role in the physics program planned for future electron-ion colliders. The large luminosities available at these facilities imply excellent statistical precision; hence it is important to have comparable precision in the experimental systematic uncertainties. Knowledge of the polarization of the electron and ion beams is one such key systematic...
Dr
Claudia Hoehne
(University of Giessen)
14/04/2016, 12:31
The CBM experiment will investigate highly compressed baryonic matter
created in A+A collisions at the new FAIR accelerator. With a beam energy
range up to 11 AGeV for the heaviest nuclei at the SIS 100 accelerator, CBM
will investigate the QCD phase diagram in the intermediate range, i.e. at
moderate temperatures but high net-baryon densities. This research program
is thus complementary...