Conveners
WG2: Chair: Jorge Morfin
- Luis Alvarez Ruso ()
- Masashi Yokoyama (University of Tokyo)
- Kendall Mahn ()
WG2: Chair: M. Yokoyama
- Kendall Mahn ()
- Masashi Yokoyama (University of Tokyo)
- Luis Alvarez Ruso ()
WG2: Chair: David Schmitz
- Masashi Yokoyama (University of Tokyo)
- Kendall Mahn ()
- Luis Alvarez Ruso ()
WG2: Chair: Jan Sobczyk
- Masashi Yokoyama (University of Tokyo)
- Luis Alvarez Ruso ()
- Kendall Mahn ()
WG2: Chair: Juan Nieves
- Masashi Yokoyama (University of Tokyo)
- Kendall Mahn ()
- Luis Alvarez Ruso ()
WG2: Neutrino Scattering Physics
- Masashi Yokoyama (University of Tokyo)
- Kendall Mahn ()
- Luis Alvarez Ruso ()
WG2: Neutrino Scattering Physics
- Luis Alvarez Ruso ()
- Masashi Yokoyama (University of Tokyo)
- Kendall Mahn ()
WG2: Neutrino Scattering Physics
- Luis Alvarez Ruso ()
- Kendall Mahn ()
- Masashi Yokoyama (University of Tokyo)
WG2: Overflow discussion and summary preparation
- Masashi Yokoyama (University of Tokyo)
- Kendall Mahn ()
- Luis Alvarez Ruso ()
Mr
Chris Marshall
(Univ. Rochester)
20/08/2013, 10:30
Neutrino Scattering Physics
Quasi-elastic neutrino scattering is a valuable tool for determining the neutrino beam energy in oscillation experiments and provides a means of studying multi-nucleon final states. Disagreements exist between measurements for neutrino energies below 1 GeV on scintillator and those at higher energies. MINERvA (Main INjector Experiment for v-A) is a neutrino scattering experiment in the NuMI...
Dr
Nicholas Graf
(Illinois Institute of Technology)
20/08/2013, 11:20
Tingjun Yang
(Fermilab)
20/08/2013, 11:45
Neutrino Scattering Physics
The liquid argon TPC (LArTPC) is a novel technique that provides excellent energy and spacial resolution and is an optimal tool to study neutrino-nucleus interactions. ArgoNeuT was the first LArTPC placed in a low energy neutrino beam. During the 5 months of running, ArgoNeuT accumulated several thousand neutrino and antineutrino interactions in the liquid argon. In this talk, I will discuss...
Dr
Pavlovic Zarko
(LANL)
20/08/2013, 16:00
Neutrino Scattering Physics
Dr
Juan Nieves
(IFIC (CSIC-UV))
20/08/2013, 16:25
Dr
Krzysztof Graczyk
(IFT, University of Wrocław)
20/08/2013, 16:50
Dr
Jonathan Paley
(Argonne National Laboratory)
21/08/2013, 08:55
Neutrino Scattering Physics
The NuMI Off-Axis $\nu_e$ Appearance (\nova) experiment is a long-baseline neutrino oscillation experiment optimized for the measurement of $\nu_\mu \rightarrow \nu_e$ appearance. A prototype 220 ton liquid-scintillator tracking calorimeter near detector, built and operated on the surface, was exposed to the NuMI beam at Fermi National Laboratory. This detector was placed at a far off-axis...
Mr
Aaron Higuera
(Guanajuato University)
21/08/2013, 13:30
Neutrino Scattering Physics
MINERvA is a few-GeV neutrino-nucleus scattering experiment located in the high intensity NuMI beam line at Fermilab. The goal of MINERvA is to make precise measurements of low energy neutrino interactions, both in support of neutrino oscillation experiments and as a pure weak probe of the nuclear medium. Employing a fine-grained, high resolution detector composed of plastic scintillator as...
Dr
Eliecer Hernandez-Gajate
(Departamento de Fisica Fundamental, Universidad de Salamanca)
21/08/2013, 13:55
Dr
Xilin Zhang
(Institute of Nulcear and Particle Physics, Ohio University)
21/08/2013, 14:20
Mr
En Wang
(IFIC, University of Valencia, Spain)
21/08/2013, 14:45
Neutrino Scattering Physics
We report on the study of photon emission induced by E_nu ∼ 1 GeV (anti)neutrino neutral current interactions with nucleons and nuclei. This process is an important background for nu_e appearance oscillation experiments. At the relevant energies, the reaction is dominated by the excitation of the ∆(1232) resonance, but there are also non-resonant contribution, that, close to threshold, are...
Dr
Satoshi Nakamura
(Yukawa Institute for Theoretical Physics, Kyoto University)
21/08/2013, 16:00
Mr
MOHAMMAD RAFI ALAM
(ALIGARH MUSLIM UNIVERSITY)
21/08/2013, 16:25
Prof.
Alessandro Bravar
(Univ. Geneva)
21/08/2013, 16:50
Neutrino Scattering Physics
MINERvA is a few GeV neutrino-nucleus scattering experiment located in the high intensity NuMI beam line at Fermilab. MINERvA aims to make precision measurements of low energy neutrino interactions, both in support of neutrino oscillation experiments and as a pure weak probe of the nuclear medium. The experiment employs a fine-grained, high resolution detector. The active region is composed of...
Mr
Hongyue Duyang
(University of South Carolina)
22/08/2013, 08:30
This talk will be devoted to the precision measurements of Coherent-Rho0
production in neutrino neutral current scattering. The new results from
the NOMAD data will be presented, which shows the first observation of
Coherent-Rho0. Future prospects of such measurements in the proposed
high-resolution LBNE-ND will be outlined.
Dr
Xinchun Tian
(U. of South Carolina)
22/08/2013, 08:55
Neutrino Scattering Physics
Status and preliminary result of the Coherent-Rho production
in NOMAD is presented. Prospect of future measurements and
its implication is briefly described.
Dr
Jason St. John
(University of Cincinnati)
23/08/2013, 10:30
Dr
Charles Taylor
(Los Alamos National Lab)
23/08/2013, 10:55
Mr
Pinzon Guerra Elder
(York University)
23/08/2013, 11:45
Dr
Alexander Korzenev
(University of Geneva)
23/08/2013, 13:30
Neutrino Scattering Physics
New results from the NA61/SHINE experiment on the determination of charged hadron yields in proton-carbon interactions are presented. They aim to improve predictions of the neutrino flux in the T2K experiment. Analysis is based on the main dataset collected by NA61/SHINE in the year 2009.
The data were recorded using a secondary-proton beam of 31 GeV/c momentum from CERN SPS which impinges on...
Dr
Jonathan Paley
(Argonne National Laboratory)
23/08/2013, 13:55
Neutrino Scattering Physics
The fixed-target Main Injector Particle Production (MIPP) Experiment was designed to produce large sets of hadron production data on variety of nuclear targets using a range of beam particles and momenta. The spectrometer has excellent momentum resolution, and particle identification is determined for particles ranging between 0.3 - 80 GeV/c using $dE/dx$, time-of-flight and Cherenkov...
Prof.
MOHAMMAD SAJJAD ATHAR
(ALIGARH MUSLIM UNIVERSITY)
23/08/2013, 14:20
