论文信息 - Coupled Channel Analysis of $\bar{p} p \rightarrow \pi^0 \pi^0 \eta$, $\pi^0 \eta \eta$ and $K^+ K^- \pi^0$ at 900 $MeV/c$ and of $\pi\pi$-Scattering Data - 字舞流文

Coupled Channel Analysis of $\bar{p} p \rightarrow \pi^0 \pi^0 \eta$, $\pi^0 \eta \eta$ and $K^+ K^- \pi^0$ at 900 $MeV/c$ and of $\pi\pi$-Scattering Data

M. Steinke | K. Peters | C. Amsler | M. Albrecht | F. Heinsius | B. Kopf | U. Wiedner | M. Faessler | H. Koch | J. Pychy | U. Kurilla | C. Meyer | X. Qin | W. Dünnweber | K. Peters | W. Dünnweber | C. Meyer | K. Peters | C. Meyer

[1] A. Szczepaniak,et al. Determination of the Pole Position of the Lightest Hybrid Meson Candidate. , 2018, Physical review letters.

[2] C. Hanhart,et al. A new parametrization for the scalar pion form factors , 2018, The European Physical Journal C.

[3] C. Amsler,et al. Spin Density Matrix of the ω in the Reaction p̄p , 2015 .

[4] David J. Wilson,et al. Resonances in coupled $\pi K, \eta K$ scattering from lattice QCD , 2014, 1411.2004.

[5] M. Steinke,et al. Spin density matrix of the $$\omega $$ω in the reaction $${\bar{p}p}\,\rightarrow \,\omega \pi ^0$$p¯p→ωπ0 , 2014, 1410.3743.

[6] A. S. Nunes,et al. Odd and Even Partial Waves of $\eta\pi^-$ and $\eta'\pi^-$ in $\pi^-p\to\eta^{(\prime)}\pi^-p$ at $191\,\textrm{GeV}/c$ , 2014, 1408.4286.

[7] B. Kopf,et al. Partial wave analysis for p̄ p and e+ e− annihilation processes , 2014 .

[8] W. Ochs. The Status of Glueballs , 2013, 1301.5183.

[9] M. Zaldarriaga,et al. A note on the consistency condition of primordial fluctuations , 2012, 1203.6884.

[10] R. Kaminski,et al. The pion-pion scattering amplitude. IV: Improved analysis with once subtracted Roy-like equations up to 1100 MeV , 2011, 1102.2183.

[11] U. Meißner,et al. The reaction π+p→K+Σ+ in a unitary coupled-channels model , 2010, 1009.3781.

[12] E. al.,et al. Partial Wave Analysis of the Reaction γp → pω and the Search for Nucleon Resonances , 2009, 0908.2911.

[13] E. al.,et al. Ur Scholarship Repository Differential Cross Sections and Spin Density Matrix Elements for the Reaction Γp→pω Differential Cross Sections and Spin Density Matrix Elements for the Reaction Γ P → Pω , 2022 .

[14] Orsay,et al. Physics Performance Report for PANDA: Strong Interaction Studies with Antiprotons , 2009, 0903.3905.

[15] M. Williams,et al. Multivariate side-band subtraction using probabilistic event weights , 2008, 0809.2548.

[16] et al.,et al. Dalitz plot analysis of the D+ → K- π+ π+ decay in the FOCUS experiment , 2007, 0705.2248.

[17] M. Kunze,et al. Study of KK¯ resonances in p¯p→K+K−π0 at 900 and 1640 MeV/c , 2006 .

[18] G. Zech,et al. Statistical energy as a tool for binning-free, multivariate goodness-of-fit tests, two-sample comparison and unfolding , 2005 .

[19] Wolfgang A. Rolke,et al. Limits and confidence intervals in the presence of nuisance parameters , 2004, physics/0403059.

[20] G. Rupp,et al. Scalar mesons and Adler zeros , 2004, hep-ph/0412078.

[21] A. Sarantsev,et al. K-matrix analysis of the (IJPC = 00+ +)-wave in the mass region below 1900 MeV , 2002, hep-ph/0204328.

[22] C. Amsler. Proton-Antiproton annihilation at 900 MeV/ c into $\pi^0\pi^0\pi^0, \pi^0\pi^0\eta$ and $\pi^0\eta\eta$ , 2002 .

[23] C. Amsler et al.,et al. Proton-Antiproton annihilation at 900 MeV/c into $\pi^0\pi^0\pi^0, \pi^0\pi^0\eta$ and $\pi^0\eta\eta$ , 2002 .

[24] J.Kisiel,et al. Resonances formed by and decaying into π0π0η for masses 1960 t0 2410 MeV , 1999, 1109.2086.

[25] D. Bugg. Study of from 600 to 1940 MeV/c , 1999 .

[26] M. Kunze,et al. Evidence for a πη-P-wave in -annihilations at rest into π0π0η , 1999 .

[27] M. Kunze,et al. Exotic ηπ state in annihilation at rest into π−π0η pspectator , 1998 .

[28] M. Kunze,et al. Antiproton-proton annihilation at rest into K+K−π0 , 1997 .

[29] R. Berlich,et al. A COMPARISON BETWEEN THE PERFORMANCE OF FEED FORWARD NEURAL NETWORKS AND THE SUPERVISED GROWING NEURAL GAS ALGORITHM , 1997 .

[30] Hayes,et al. Review of Particle Physics. , 1996, Physical review. D, Particles and fields.

[31] Marcel Kunze,et al. Application of a Neural Network and a Genetic Algorithm in the Analysis of Multi Particle Final States , 1995 .

[32] Claude Amsler,et al. Coupled channel analysis of pp annihilation into π0π0π0, π0ηη and π0π0η , 1995 .

[33] E. Klempt,et al. Partial wave analysis in K matrix formalism , 1995 .

[34] Claude Amsler,et al. The crystal barrel spectrometer at LEAR , 1992 .

[35] M. V. Vacas,et al. Two-meson doorway model of low energy antiproton-proton annihilation , 1991 .

[36] K. J. Foley,et al. A measurement of π−p→K0sK0sn at 22 GeV/c and a systematic study of the 2++ meson spectrum☆ , 1986 .

[37] S. A. Sadovsky,et al. Study of π−p→η′ηn in a search for glueballs , 1984 .

[38] A. Badalyan,et al. Resonances in coupled channels in nuclear and particle physics , 1982 .

[39] G. Schwarz. Estimating the Dimension of a Model , 1978 .

[40] R. Zitoun,et al. Peripheral behaviour of pp → K∗±K∓ between 1 and 2.5 GeV/c , 1976 .

[41] P. Weilhammer,et al. A study of the ππ phase-shift solutions in the mass region 1.0 to 1.8 GeV from π−p → π−π+n at 17.2 GeV , 1975 .

[42] A. Astbury,et al. Some observations on the differential cross-sections for pp → K−K+ , 1974 .

[43] A. Astbury,et al. Differential cross-sections for pp → π−π+, K−K+ between 0.8 and 2.4 GeV/c☆ , 1973 .

[44] A. Astbury,et al. Interpretations of the differential cross-sections for p → π−π+ , 1973 .

[45] P. Weilhammer,et al. ππ Phase-shift analysis from 600 to 1900 MeV , 1973 .

[46] I. Aitchison,et al. The K-matrix formalism for overlapping resonances , 1972 .

[47] K. Schilling,et al. On the Analysis of Vector Meson Production by Polarized Photons , 1970 .