RNC SOFT PHYSICS GROUP
(since 1998)

Nuclear Science Division,  Lawrence Berkeley National Laboratory



Home
Members Results Group page
before 2009


The physics interest of the LBL Soft Physics Group is to study the formation and characteristics of the medium system created in relativistic nucleus-nucleus collisions at RHIC energies, with focus on the single particle momentum spectra, azimuthal anisotropic distributions, two particle correlations, heavy flavor and electromagetic probe production by utilizing the STAR detector. We are studying/searching for the MATTER EoS with partonic degrees of freedom: partonic collectivity, thermalization, and the temperature of the system created at RHIC. We are also carrying out the program of exploring the QCD phase map to search for the first order phase transition boundary and the possible QCD critical point.
                 
Quick Links:

STAR, STAR drupal
LBL, RNC
arXiv, SPIRES, LBL e-journal
ROOT, PDG
picoDst


Weekly Monday Meetings

Time:                 Monday 11:00am Pacific Time
Phone Bridge:    +1-510-486-7333 (Obsoleted on and after Feb 23, 2015)

Starting from Feb 23,  we use the following BlueJeans Connection:
To join the Meeting:
https://bluejeans.com/941076503

To join via Browser:
https://bluejeans.com/941076503/browser

To join via Phone:
1) Dial:
+1 408 740 7256
+1 888 240 2560(US Toll Free)
+1 408 317 9253(Alternate Number)
(see all numbers - http://bluejeans.com/numbers)
2) Enter Conference ID: 941076503

Place:                Nuclear Theory Lounge (70-228)

  • Oct. 23, 2017
    • News (5')
    • Sooraj (30') - Update on D0 v1 and Lc analysis
    • Xiaolong (30') - Non-prompt D0 analysis
  • Oct. 16, 2017
    • News (5')
    • Sooraj (40') - Update on D0 v1 and Lc analysis (postponed)
  • July 31, 2017
    • News (5')
    • Kathryn (40') - Rehearsal of CPOD presentation
  • July 3, 2017
    • News (5')
    • Sooraj (40') - D0 v1 analysis in Au+Au collisions at 200 GeV (SQM analysis)
  • Jun. 5, 2017
    • News (5')
    • Sooraj (40') - D0 v1 measurements in Au+Au collisions at sqrt(sNN) = 200 GeV

>> More meetings:  2016, 2015, 2014, 2013, 2012, 2011, 2010, 2009,  2008 and before

Edited by Xin Dong, XDong@lbl.gov, 510-486-4121