Pion absorption reactions on $\chem{N}$, $\chem{Ar}$ and $\chem{Xe}$

B. Kotliński; D. Androić; G. Backenstoss; D. Bosnar; H. Döbbeling; T. Dooling; M. Furić; P.A.M. Gram; N.K. Gregory; A. Hoffart; C.H.Q. Ingram; A. Klein; K. Koch; J. Köhler; M. Kroedel; G. Kyle; A. Lehmann; V. Markushin; A.O. Mateos; K. Michaelian; T. Petković; M. Planinić; R.P. Redwine; D. Rowntree; N. Šimičević; R. Trezeciak; H.J. Weyer; M. Wildi; K.E. Wilson The LADS Collaboration

doi:doi:10.1007/s100500070010

2021 Impact factor 3.131

Hadrons and Nuclei

Eur. Phys. J. A 9, 537-552

Pion absorption reactions on $\ensuremath{\mathsf{N}}$ , $\ensuremath{\mathsf{Ar}}$ and $\ensuremath{\mathsf{Xe}}$

B. Kotlinski⁷ - D. Androic⁸ - G. Backenstoss¹ - D. Bosnar⁸ - H. Döbbeling⁷ - T. Dooling⁶ - M. Furic⁸ - P.A.M. Gram³ - N.K. Gregory⁴ - A. Hoffart^2,7 - C.H.Q. Ingram⁷ - A. Klein⁶ - K. Koch⁷ - J. Köhler¹ - M. Kroedel¹ - G. Kyle⁵ - A. Lehmann^1,7 - V. Markushin⁷ - A.O. Mateos⁴ - K. Michaelian⁷ - T. Petkovic⁸ - M. Planinic⁸ - R.P. Redwine⁴ - D. Rowntree⁴ - N. Simicevic⁴ - R. Trezeciak² - H.J. Weyer^1,7 - M. Wildi¹ - K.E. Wilson⁴
The LADS Collaboration

¹ University of Basel, CH-4056 Basel, Switzerland
² University of Karlsruhe, D-76128 Karlsruhe, Germany
³ LAMPF, Los Alamos NM 87545, USA
⁴ Massachusetts Institute of Technology, Cambridge MA 02139, USA
⁵ New Mexico State University, Las Cruces NM 88003, USA
⁶ Old Dominion University, Norfolk VA 23529, USA
⁷ Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland
⁸ University of Zagreb, HR-10000 Zagreb, Croatia

Received: 16 October 2000
Communicated by M. Garçon

Abstract
The absorption of $\pi^{+}$ on $\ensuremath{\mathsf{Ar}}$ was studied at pion energies of 70, 118, 162, 239 and 330MeV, and on $\ensuremath{\mathsf{N}}$ and $\ensuremath{\mathsf{Xe}}$ at 239MeV. Twenty-six absorption reaction channels with at least two energetic charged particles in the final state have been evaluated. Partial cross-sections have been determined according to the number of protons, neutrons and deuterons in the final state.