OBELIX Papers
- A. Bertin et al., Obelix Collaboration
- Phys. Lett. B361, 187, (1995).
- E/iota decays to KKpi in proton antiproton annhilation at rest.
- A. Bertin et al., Obelix Collaboration
- Phys. Lett. B385, 493, (1996).
- Measurement of the eta(1440) to K+/-KLpi-/+ production
rates from proton antiproton annhilation at rest at three different hydrogen target densities.
- A. Bertin et al., Obelix Collaboration
- Phys. Lett. B400, 226, (1997).
- A search for axial vectors in proton antiproton to K+/-K0pi-/+pi+pi- annihlations at rest in gaseous hydrogen at NTP.
S states
- A. Bertin et al., Obelix Collaboration
- Phys. Lett. B414, 220, (1997).
- Study of the proton antiproton to 2pi+2pi- annhilation from
S states
- A. Bertin et al., Obelix Collaboration
- Phys. Lett. B434, 180, (1998).
- Study of the isovector scalar mesons in the channel proton antiproton to K+/-KSpi-/+ at rest with initial angular momentum state selection.
- V Alberico, et al., Obelix Collaboration
- Subject:phi eta.
- Date: June '98.
- Phys. Lett. B432, (1998), 427.
- Measurements of the reaction antiproton proton to
of antiproton annihilation at rest at three hydrogen target densities.
- C.Cicalo et al., Obelix Collaboration
- Phys. Lett. B462, 453, (1999).
- Evidence for two pseudoscalar states in thje 1.4 to 1.5 GeV mass region.
- F.Nichitiu et al., Obelix Collaboration
- Phys. Lett. B545, 261, (2002).
- Study of the K+K-pi+pi-pi0 final
state in antiproton proton annihliation at rest in gaseous hydrogen at NTP with the OBELIX
spectrometer.
- M.Bargiotti et al., Obelix Collaboration
- Phys. Lett. B561, 233, (2003).
- Results of the coupled channel analysis of 3pi and KKpi from proton antiproton annhilation
at rest in hydrogen at three target densities
- M.Bargiotti et al., Obelix Collaboration
- Eur. Phys. J. C26, 371, (2003).
- Coupled channel analysis of 3pi and KKpi from proton antiproton annhilation
at rest in hydrogen at three target densities
- P.Salvini et al., Obelix Collaboration
- Eur. Phys. J. C35, 21, (2004).
- Proton antiproton annhilation into four charged pions at rest and in flight.