English

Collision Geometry and Flow in Uranium+Uranium Collisions

Nuclear Theory 2015-10-28 v1 Nuclear Experiment

Abstract

Using event-by-event viscous fluid dynamics to evolve fluctuating initial density profiles from the Monte-Carlo Glauber model for U+U collisions, we report a "knee"-like structure in the elliptic flow as a function of collision centrality, located around the 0.5% most central collisions as measured by the final charged multiplicity. This knee is due to the preferential selection of tip-on-tip collision geometries by a high-multiplicity trigger. Such a knee structure is not seen in the STAR data. This rules out the two-component MC-Glauber model for initial energy and entropy production. Hence an enrichment of tip-tip configurations by triggering solely on high-multiplicity in the U+U collisions does not work. On the other hand, by using the Zero Degree Calorimeters (ZDCs) coupled with event-shape engineering such a selection is possible. We identify the selection purity of body-body and tip-tip events in full-overlap U+U collisions. By additionally constraining the asymmetry of the ZDC signals we can further increase the probability of selecting tip-tip events in U+U collisions.

Keywords

Cite

@article{arxiv.1507.03910,
  title  = {Collision Geometry and Flow in Uranium+Uranium Collisions},
  author = {Andy Goldschmidt and Zhi Qiu and Chun Shen and Ulrich Heinz},
  journal= {arXiv preprint arXiv:1507.03910},
  year   = {2015}
}

Comments

7 pages, 5 figures

R2 v1 2026-06-22T10:11:42.833Z