Measurement of $K^- p$ radiative capture to $\gamma \Lambda$ and $\gamma \Sigma^0$ for $p_{K^-}$ between 514 and 750 MeV/$c$

Prakhov, S. ; Vancraeyveld, P. ; Phaisangittisakul, N. ; et al.
Phys.Rev.C 82 (2010) 015201, 2010.
Inspire Record 839376 DOI 10.17182/hepdata.55317

Differential cross sections for $K^-$ radiative capture in flight on the proton, leading to the $\gamma\Lambda$ and $\gamma\Sigma^0$ final states, have been measured at eight $K^-$ momenta between 514 and 750 MeV/$c$. The data were obtained with the Crystal Ball multiphoton spectrometer installed at the separated $K/\pi$ beam line C6 of the BNL Alternating Gradient Synchrotron. The results substantially improve the existing experimental data available for studying radiative decays of excited hyperon states. An exploratory theoretical analysis is performed within the Regge-plus-resonance approach. According to this analysis, the $\gamma\Sigma^0$ final state is dominated by hyperonresonance exchange and hints at an important role for a resonance in the mass region of 1700 MeV. In the $\gamma\Lambda$ final state, on the other hand, the resonant contributions account for only half the strength, and the data suggest the importance of a resonance in the mass region of 1550 MeV.

7 data tables

Differential cross section for the K- P --> GAMMA LAMBDA reaction at thelower beam momenta.

Differential cross section for the K- P --> GAMMA LAMBDA reaction at thehigher beam momenta.

Differential cross section for the K- P --> GAMMA SIGMA0 reaction at thelower beam momenta.

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Differential Cross-sections for $\pi^+ P$ and $\pi^- P$ Elastic Scattering From 378-{MeV}/c to 687-{MeV}/c

Sadler, M.E. ; Briscoe, W.J. ; Fitzgerald, D.H. ; et al.
Phys.Rev.D 35 (1987) 2718-2735, 1987.
Inspire Record 250023 DOI 10.17182/hepdata.23362

Differential cross sections have been measured for π+p and π−p elastic scattering at 378, 408, 427, 471, 509, 547, 586, 625, 657, and 687 MeV/c in the angular range -0.8<cosθc.m.<0.8. The scattered pion and recoil proton were detected in coincidence using scintillation-counter hodoscopes. A liquid-hydrogen target was used except for measurements at forward angles, in which a CH2 target was used. Statistical uncertainties in the data are typically less than 1%. Systematic uncertainties in acceptance and detection efficiency are estimated to be 1%. Absolute normalization uncertainties are 2–3 % for most of the data. The measurements are compared with previous data and with the results of recent partial-wave analyses. The data are fit with Legendre expansions from which total elastic cross sections are obtained.

23 data tables

Normalisation uncertainty = 3.1 pct.

Normalisation uncertainty = 4.1 pct.

Normalisation uncertainty = 2.1 pct.

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