G. Otter
RWTH Aachen University
6 Papers
11 Citations
G. Otter is an academic researcher from RWTH Aachen University. The author has contributed to research in topics: Resonance & Partial wave analysis. The author has an hindex of 3, co-authored 6 publications.
Chat about Author
Papers
Spin-parity analysis of the pπ+π− system in the reaction K−p → K−π−π+p at 10, 14.3 and 16 GeV/c
G. Otter,G. Rudolph,H. Wieczorek,K. Lanius,S. Nowak,D. R. O. Morrison,H. Saarikko,Peter Schmid,F. A. Triantis,Keith W. J. Barnham,B. Pollock,P. R. Thornton,J.N. Macnaughton,H. Rohringer +13 more
TL;DR: In this article, a diffractively produced p π + π − system has been analyzed for the reaction K − p→K − (p π+ π− ) at 10, 14.3 and 16 GeV/ c using the isobar model.
6
Diffraction dissociation, resonances and deck mechanism in the Kω systems of the reactions K±p→(K±ω)p
G. Otter,Gerald Rudolph,H. Wieczorek,J. Schreiber,Reiner Klein,G.T. Jones,J.B. Kinson,K.M. Storr,Denis Johnson,V. T. Cocconi,Yves Goldschmidt-Clermont,G.A. Grammatikakis,D. R. O. Morrison,Heimo M T H. Saarikko,Patrick Schmid,A. Stergiou,J.K. Tuominiemi,Keith W. J. Barnham,B. Pollock,Roland Windmolders,Ph. Herquet,Britta Buschbeck,Jimmy J.N. Macnaughton +22 more
TL;DR: In this article, a study of the reactions K+p→(K+ω)p at 8.25 and 16.7 GeV/c and K−p→ (K−ω) p at 10 and 16 GeV /c was presented, which can be qualitatively explained in the framework of the Deck model.
5
Amplitude analysis of the reaction π+ p → (π+ π−)Δ++ in the rho-region at 16GeV/c
H. Laven,G. Otter,G. Rudolph,H. Wieczorek,R. Hartmann,H. Emans,M.F. Hodous,D. R. O. Morrison,P. Porth,F. A. Triantis +9 more
TL;DR: In this article, an amplitude analysis for the reaction π+ p → (π+ π−) Δ++ at 16 GeV/c, constraining the relative spin between the target proton and the Δ++ to be 1.
3
A Partial Wave Analysis of the Reaction π+p (π+π−π0) Δ++ at 16 GeV/c
TL;DR: In this article, a partial wave analysis of the 3π-system has been performed for the reaction π+p (π+π−π0) Δ++ (1232) at 16 GeV/c.
Search for the decay μ+ → e+e+e−
U. Bellgardt,G. Otter,R. Eichler,L. Felawka,C. Niebuhr,H.K. Walter,Willi Bertl,N. Lordong,J. Martino,S. Egli,R. Engfer,C. Grab,M. Grossmann-Handschin,E.A. Hermes,N. Kraus,F. Muheim,H.S. Pruys,A. van der Schaaf,D. Vermeulen +18 more
TL;DR: In this paper, the search for the decay μ+ → e+e+e−e− with the SINDRUM spectrometer has been continued and a new upper limit for the branching ratio B μ→3 e = Γ(μ→ 3 e ) Γ (μ→ e 2ν) −12 (90% CL ) was given.