Add to ORKGContributions from the reaction e+e- --> pi+pi- e+e- to the pion form factor measurement via radiative return method are discussed basing on the results of a Monte Carlo generator (EKHARA). The generator contains contributions from the initial and final state emission of a e+e- pair from e+e- --> pi+pi- production diagrams and the pi+pi- pair production from space-like and time-like Bhabha diagrams. A detailed study is performed for the Phi- factory energy. Tests of the generation procedure are also presented
To improve the accuracy of the e+e ! + Radiative Return Method, one has to control the theoretica...
The measurement of the pion form factor and, more generally, of the cross section for electron-posit...
We present a sample of results for the cross sections of several processes of low energetic $$e^+e^-...
Contributions from the reaction e+e− ! + −e+e− to the pion form factor measurement via radiative re...
Muon pair production through the radiative return is of importance for a measurement of the hadronic...
The Monte Carlo event generator PHOKHARA, which simulates hadron and muon production at electron-pos...
The energy dependence of the electron - positron hadronic cross section can be measured not only by ...
In the fixed energy environment of the e(+)e(-) collider DAPhiNE, KLOE can measure the cross section...
The measurement of the pion form factor and, more generally, of the cross section for electron–posit...
Recently it has been demonstrated that particle factories, such as DAPHNE and PEP-II, operating at f...
Existing Monte-Carlo generators with radiative corrections to the e+e-→π+π- process are usually deve...
The measurement of the pion form factor and, more generally, of the cross section for electron-posit...
The feasibility of a measurement of the electric and magnetic nucleon form factors at $B$-meson fact...
The measurement of hadronic cross sections, especially at low centre-of-mass energies, is currently ...
The radiative return has proven to be a competitive method for the precise measurement of the hadron...
To improve the accuracy of the e+e ! + Radiative Return Method, one has to control the theoretica...
The measurement of the pion form factor and, more generally, of the cross section for electron-posit...
We present a sample of results for the cross sections of several processes of low energetic $$e^+e^-...
Contributions from the reaction e+e− ! + −e+e− to the pion form factor measurement via radiative re...
Muon pair production through the radiative return is of importance for a measurement of the hadronic...
The Monte Carlo event generator PHOKHARA, which simulates hadron and muon production at electron-pos...
The energy dependence of the electron - positron hadronic cross section can be measured not only by ...
In the fixed energy environment of the e(+)e(-) collider DAPhiNE, KLOE can measure the cross section...
The measurement of the pion form factor and, more generally, of the cross section for electron–posit...
Recently it has been demonstrated that particle factories, such as DAPHNE and PEP-II, operating at f...
Existing Monte-Carlo generators with radiative corrections to the e+e-→π+π- process are usually deve...
The measurement of the pion form factor and, more generally, of the cross section for electron-posit...
The feasibility of a measurement of the electric and magnetic nucleon form factors at $B$-meson fact...
The measurement of hadronic cross sections, especially at low centre-of-mass energies, is currently ...
The radiative return has proven to be a competitive method for the precise measurement of the hadron...
To improve the accuracy of the e+e ! + Radiative Return Method, one has to control the theoretica...
The measurement of the pion form factor and, more generally, of the cross section for electron-posit...
We present a sample of results for the cross sections of several processes of low energetic $$e^+e^-...