Differential Cross Sections

for unpolarized target and without recoil polarization 


The following notation of the coincidence cross section will be used in our calculations. Further details can be found in D. Drechsel and L. Tiator, J. Phys. G 18 (1992) 449-497. (scanned version)
(click here for a larger image)

On this page only the individual 2-fold cross sections dsT, dsL, dsLT, dsTT and dsLT' will be calculated. For a calculation of the complete 5-fold differential cross section see our alternative page.
Note: The longitudinal cross sections (dsL, dsLT and dsLT') differ from those in Drechsel and Tiator, J. Phys. G18 (1992) 449. Here we do not use the longitudinal polarization epsilon_L!!


Channel: (pi0,p) (pi0,n) (pi+,n) (pi-,p)
Choose kinematical variables

choose an independent (running) variable: Q² Q
choose values for Q², W, Q, step size and maximum value:
Q² (GeV/c)²
W (MeV)
Q (deg)
increment
upper value
click here

Change of model parameters: ( suppress output )

Born Rho Omega 
P33(1232) P11(1440) D13(1520) S11(1535) S31(1620)
S11(1650) D15(1675)  F15(1680) D33(1700) P13(1720)
F35(1905) P31(1910) F37(1950) 

Change of S-wave low-energy corrections and type of pi-N coupling (click here for details)
E0+
S0+
PS-PV mixing range parameter Lambda 

Change values of resonance couplings (relative to default values):
P33(1232)
S31(1620)
D33(1700)
M1+
E1+
S1+
A1/2
S1/2
A3/2
A1/2
S1/2
F35(1905)
P31(1910)
F37(1950)
A3/2
A1/2
S1/2
A1/2
S1/2
A3/2
A1/2
S1/2

P11(1440)
D13(1520)
S11(1535)
S11(1650)
A1/2
S1/2
A3/2
A1/2
S1/2
A1/2
S1/2
A1/2
S1/2
D15(1675)
F15(1680)
P13(1720)
A3/2
A1/2
S1/2
A3/2
A1/2
S1/2
A3/2
A1/2
S1/2

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