ramiro debbe physics department brookhaven national laboratory
DESCRIPTION
RECENT RESULTS FROM BRAHMS CIPANP 2003 New York May 2003. Ramiro Debbe Physics Department Brookhaven National Laboratory. Introduction. We report comprehensive results of our analysis of the 200 GeV Au-Au data. This work concentrates on the 5% most central events . - PowerPoint PPT PresentationTRANSCRIPT
R. Debbe CIPANP 2003
Ramiro DebbePhysics Department
Brookhaven National Laboratory
RECENT RESULTS FROM BRAHMS
CIPANP 2003 New York May 2003
R. Debbe CIPANP 2003
Introduction
We report comprehensive results of our analysis of the 200 GeV Au-Au data.
This work concentrates on the 5% most central events.
This work is based on the PhD theses of two NBI students:
Djamel Ouerdane and Peter Christiansen
All results presented today are PRELIMINARY.
R. Debbe CIPANP 2003
Introduction cont.
BRAHMS is one of the five RHIC experiments. BRAHMS is designed to study the bulk properties of the collisions. We measure charged particle production in a wide rapidity range and transverse momenta extending up to ~5 GeV/c.
These measurements are done with two conventional spectrometers with small acceptance.
We put special emphasis on our Particle Identification capabilities with a combination of Time of Flight and Čerenkov detectors.
R. Debbe CIPANP 2003
R. Debbe CIPANP 2003
BRAHMS Coverage
R. Debbe CIPANP 2003
Particle Identification
C1 π threshold
H1 & C1
⎟⎟⎠
⎞⎜⎜⎝
⎛−
β= 1
1pm
222
Mid-rapidity Spectrometer Forward Spectrometer
TOFW
RICH
R. Debbe CIPANP 2003 d2n/pTdpT=A(p0+pT)-n
R. Debbe CIPANP 2003
R. Debbe CIPANP 2003
R. Debbe CIPANP 2003
R. Debbe CIPANP 2003
R. Debbe CIPANP 2003
Mean Transverse momentum
K
P
R. Debbe CIPANP 2003
Net Charge as function of y
The net charge is fitted to :
A cosh(y/b)
D. Kharzeev PLB378(96)238
2=7.4/6
A = 8.5 0.3
b = 2.4 0.1
Total number of protons in y range: -3, 3
R. Debbe CIPANP 2003
K+p/pion
Y = 0
R. Debbe CIPANP 2003
Anti-proton/pion at y=0
R. Debbe CIPANP 2003
K+P/ at y=3
R. Debbe CIPANP 2003
Anti-proton/pion at y~3
R. Debbe CIPANP 2003
R. Debbe CIPANP 2003
RHIC data is “far” from the “resonance gas” ; the contribution of rescattering to the shape of distributions is small. Transverse flow is the dominant feature
R. Debbe CIPANP 2003
Thermal source with transverse flow
A change to a Boltzman distrib. Integration over y and phi produce the following function:
Changing to a Boltzman distrib. And integrating over y and produces the following function to fit the measured spectra. (βT = tanh)
Distributions of particles are assimilated to the counting of particles traversing a hyper-surface beyond which the system decouples
R. Debbe CIPANP 2003
2/NDF = 6.7
βT = 0.53
T = 138. MeV
Transverse flow at y=0
Fits + - K+ P Pbar. Errors are statistical
• pions
• kaons
• proton
R. Debbe CIPANP 2003
2/NDF = 6.6
βT = 0.57
T = 115 MeV
Transverse flow at y~1
R. Debbe CIPANP 2003
2/NDF = 56/30
βT = 0.47
T = 135. MeV
Transverse flow at y~2
R. Debbe CIPANP 2003
Transverse flow at y~3
2/NDF = 1.2
βT = 0.42
T = 140 MeV
R. Debbe CIPANP 2003
Transverse flow at y=3
The presence of transverse flow in the system is most evident in the shape of the proton distribution.
Even though a fit to a thermal source with transverse flow does not fail, the comparison to the distribution at y=0 supports the assertion that transverse flow is much reduced at y=3.
R. Debbe CIPANP 2003
Summary
� BRAHMS measurements in a range of up to 2 units of rapidity around 0, are consistent with a thermalized system that exhibits strong transverse flow (β≥0.5).
� Hadronization at RHIC happens when the system is dilute. Secondary interaction (pion wind ) are not the main contributors to the shape of the distributions.
� Transverse flow is reduced at y~3.