Comparison of different spectra at mid-rapidity.
TAPS
For 1 GeV (multiplicities taken from Schwalbs paper, Apart from Averbeck2003):
<Aprt> = 164+-20
|
Ylab=0.52-0.84 |
extrapolated to 4pi isotropic |
m_pi0/A_part |
0.0051+/- 0.0005 |
0.023+/-0.002 |
3*m_pi |
0.0153 +/- 0.0015 |
0.069 +/- 0.006 * |
*1.36 energy 0.021 +/- 0.002
*its for comparison, same as from my previous table
So you can use 0.021+-0.002 after correction to the same size of rapidity window, which is now for TAPS +-0.15 in y_lab.
FOPI
At 1.20 GeV m_pi/Apart = 1.5*(5.6+10.0)/331 = 0.071
At 1.23 GeV * 1.03 = 0.031 +/- 0.003
1.5*(pi+ + pi-)/Apart = 1.5*(5.6+10.0)/331 = 0.0731
* 1.03 --> energy scaling from 1.2GeV --> 1.23GeV
Systematic error accoridng to info from Reisdorf mails we have 5% for pi- 8% for pi+.
0.74 is recalculation from mid-rapidity bin in normalized y0 to bin in y_cm
according to private communication with Willy Reisdorf the systematic error they have is 5% for pi- and 8% for pi+
HADES
Pion multiplicities integrated in the +/- 0.15 range around midrapidity (normalzied to Apart):
pim/Apart = 2.89/303 = 9.53e-3
pip/Apart = 1.51/303 = 4.98e-3
pi0/Apart = 0.5*(2.89+1.51)/303 = 7.26e-3
this gives us 3*pi = 0.0217 +/- 0.000868
Summary
Here one can find mid-rapidity pion multiplicity.
the numbers are normalized to unit in y_lab.
exp |
KAOS |
FOPI |
TAPS |
HADES |
M |
|
(9.5 +/- 0.76)e-2 |
(6.56e +/- 0.65)*e-2 |
(7.26 +/- 0.3)*e-2 |
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GosiaSudol - 27 Jun 2019