English

Sigma-Meson and Confinement Singularity

High Energy Physics - Phenomenology 2011-05-31 v1

Abstract

We describe the meson-meson data for the (IJPC=00++IJ^{PC}=00^{++}) wave at 280s1900280\leq\sqrt s\leq 1900 MeV in two approaches: (i) the K-matrix approach and (ii) the dispersion relation D-matrix method. With a good description of low energy data (at 280s900280\leq\sqrt s\leq 900 MeV) as well as the data of two-meson transition amplitudes and antiproton-proton annihilation into three pseudoscalar meson states (at 450s1950450\leq\sqrt s\leq 1950 MeV) we have found the positions of the resonance poles: (i) for the σ\sigma meson pole: Mσ=(390±35)i(235±50)M_\sigma = (390\pm 35)-i(235\pm 50) MeV; (ii) two poles for the f0(980)f_0(980), on the second sheet (under the ππ\pi\pi cut): MI=(1011±5)i(35±5)M_{I} = (1011\pm 5)-i(35\pm 5) MeV, and on the third sheet (under the ππ\pi\pi and KKˉK\bar K cuts), MII=(1035±50)i(460±50)M_{II} = (1035\pm 50)-i(460\pm 50) MeV; for the f0(1370)f_0(1370) meson, M=(1285±30)i(160±20)M= (1285\pm 30)-i(160\pm 20) MeV; for the f0(1500)f_0(1500) meson, M=(1488±4)i(53±5)M = (1488\pm 4)-i(53\pm 5) MeV; for the f0(1790)f_0(1790) meson, M=(1775±25)i(140±15)M = (1775\pm 25)-i(140\pm 15) MeV and for the broad state f0(12001600)f_0(1200-1600) M=(1540±120)i(550±70)M=(1540\pm 120)-i(550\pm 70) MeV. Our estimation of the scalar-isoscalar scattering length obtained under different parameterizations and assumptions about the quality of low energy ππ\pi\pi scattering data is a00=(0.215±0.040)μπ1a^0_0=(0.215\pm 0.040)\mu^{-1}_\pi. We also discuss the idea according to which the σ\sigma-meson could be a remnant of the confinement singularity, 1/s21/s^2, in a white channel.

Keywords

Cite

@article{arxiv.1105.5923,
  title  = {Sigma-Meson and Confinement Singularity},
  author = {A. V. Anisovich and V. V. Anisovich and M. A. Matveev and K. V. Nikonov and V. A. Nikonov and J. Nyiri and A. V. Sarantsev and T. O. Vulfs},
  journal= {arXiv preprint arXiv:1105.5923},
  year   = {2011}
}

Comments

23 pages

R2 v1 2026-06-21T18:14:29.994Z