The PANDA detector will be build as a part of the future FAIR facility in
Darmstadt. The availability of an antiproton beam with beam momenta up to 15
GeV/c will make possible a broad nuclear physics program. Topics like hadron
spectroscopy in the charmonium mass region, the property of hadrons inside
nuclear matter, hypernuclei physics, or nucleon properties using
electromagnetic processes are part of the physics program of PANDA. The main
part of this contribution concentrates on the feasibility of measurement of
nucleon structure observables, such as electromagnetic form factors or
transition distribution amplitudes, via electron or photon experiments in
PANDA.
Darmstadt. The availability of an antiproton beam with beam momenta up to 15
GeV/c will make possible a broad nuclear physics program. Topics like hadron
spectroscopy in the charmonium mass region, the property of hadrons inside
nuclear matter, hypernuclei physics, or nucleon properties using
electromagnetic processes are part of the physics program of PANDA. The main
part of this contribution concentrates on the feasibility of measurement of
nucleon structure observables, such as electromagnetic form factors or
transition distribution amplitudes, via electron or photon experiments in
PANDA.