Event calendar file
11-15 September 2017
Mexico/General timezone
- ismd2017@nucleares.unam.mx
Support
Proton structure, small-and large-x physics (III)
Date:
13 Sep 09:00 - 11:25
Conveners
-
- Bruno El-Bennich, Amir Rezaeian
- Chairperson: Larry McLerran
Timetable | Contribution List
Displaying 5
contributions
out of
5
The calculation of hadronic observables using a combination of
Dyson-Schwinger and Bethe-Salpeter equations has developed dramatically
in recent years. The method aims at the calculation of hadronic
properties from the underlying QCD degrees of freedom, without
abandoning the realm of continuum quantum field theories.
We report on the most recent calculations of the spectrum and
electr
... More
Presented by Dr. Helios SANCHIS ALEPUZ
on
13/9/2017
at
15:35
The 2015 US Nuclear Physics Long-Range Plan endorsed the realization of
an Electron-
Ion Collider (EIC) as the next large construction project in the United
States. With its
high luminosity ( > 1033 cm−2s−1), wide kinematic reach in
center-of-mass-energy (45 GeV to 145 GeV) and high lepton
and proton beam polarization, the EIC is an unprecedented
opportunity to reach new frontiers in ou
... More
Presented by Dr. Salvatore FAZIO
on
13/9/2017
at
14:00
In high energy collisions, partons produced in the initial stage
undergo the multiple interaction and yield a collective motion
as a whole. Recently, several questions came up including
how small the system can be for producing the collectivity, and
how far in rapidity the collectivity extends.
PHENIX has measured the particle flow in p/d/A+A collisions
over several energies as well as over
... More
Presented by Ms. Seyoung HAN
on
13/9/2017
at
16:00
The Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory is the world's only polarized proton collider with center-of-mass energies up to 500 GeV and polarizations of about 60% for each proton beam and the the worlds most versatile collider, able to collide different species over an extremely wide kinematic range. It provides unique opportunities to study the spin structure in
... More
Presented by Dr. Elke-Caroline ASCHENAUER ELKE-CAROLINE
on
13/9/2017
at
14:25
Transverse Momentum Dependent Functions (TMDs) encode essential information about both the structure of nucleons and hadronization processes. They cannot be calculated from first principles, instead, one must determine them via phenomenological analyses. Recent multidimensional data in semi-inclusive deeply inelastic scattering (SIDIS) has made it evident that several theoretical issues must be
... More
Presented by Dr. Osvaldo GONZALEZ
on
13/9/2017
at
14:50
