Not exact matches
BACK TO WORK The CMS detector tracks the trajectories of particles (yellow and red lines) created in
proton collisions at the Large Hadron Collider on June 3 — the
first day of data collection after more than two years of upgrades.
It was early in the summer, when we
first started to get
proton collisions at a really high rate and could have seen something immediately.
Generated in the
proton -
proton collisions were large numbers of positive pions, which decayed
first into positive muons and then into positrons.
After the initial nine - week part of the run, RHIC physicists will begin a series of experiments they've never done before —
collisions of polarized
protons in one beam with a beam of heavier ions (
first gold, for about five weeks, then a shorter two - week run with aluminum).
Minjung Kim — a graduate student at Seoul National University and the RIKEN - BNL Research Center at Brookhaven Lab —
first noticed the surprisingly dramatic skew of the neutrons — and the fact that the directional preference was opposite to that seen in
proton -
proton collisions.
For the
first time, RHIC is running at a record energy of 500 giga - electron volts (GeV) per
collision, more than double the previous runs in which polarized
proton beams collided at 200 GeV.
12 Apr 2018 — The Large Hadron Collider has initiated the
collision of
proton beams for the
first time this year
Large single - spin asymmetries in very forward neutron production have been previously observed in transversely polarized $ p $ $ + $ $ p $
collisions at RHIC, and the existing... ▽ More During 2015 the Relativistic Heavy Ion Collider (RHIC) provided
collisions of transversely polarized
protons with Au and Al nuclei for the
first time, enabling the exploration of transverse - single - spin asymmetries with heavy nuclei.