1 / 12

Experiments with a cooled p beam on an internal target

High Energy Storage Ring HESR. p. P max = 15 GeV/c L max = 2 ·10 32 cm -2 s -1 Ø < 100 μm Δ p/p < 10 -5. e - cooler. detector. Experiments with a cooled p beam on an internal target. Physics program Detector set-up. Carsten Schwarz. Glueballs Hybrids. Physics program.

jeroen
Télécharger la présentation

Experiments with a cooled p beam on an internal target

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. High Energy Storage Ring HESR p Pmax = 15 GeV/c Lmax = 2·1032 cm-2 s-1 Ø < 100 μm Δ p/p < 10-5 e- cooler detector Experiments with a cooled p beam on an internal target • Physics program • Detector set-up Carsten Schwarz

  2. Glueballs Hybrids Physics program Charmonium spectroscopy Medium modifications of D mesons and J/Ψ in nuclei Hypernuclei CP violation

  3. Mass modifications of mesons pionic atoms π- 25 MeV π π+ KAOS/FOPI K+ K 100 MeV K- HESR D D- 50 MeV ? D+ vacuum nuclear medium ρ = ρ0 Medium modifications of D mesons and J/Ψ in nuclei Continuation of present GSI physics FOPI, KAOS, HADES, …HESR Signal: medium modification of production threshold, resonance width e.g. Ψ’, χ2 Absorption cross section of J/Ψ in nuclei (ρ=ρ0).

  4. Charmonium spectroscopy • Charmonium gives information about QCD confinement potential. • Many states are still missing. • pp: direct population of all states. • HESR allows investigation of states above DD threshold. • Cooled beams with Δp/p≤10-5 allow high precision scan of resonances. Crystal Ball e+e- 40 keV

  5. _ X 3 GeV/c p X- Hypernuclei K+K Trigger • X-(dss)p(uud)L(uds)L(uds) • study of L L interaction secondary target

  6. Signal: exotic quantum numbers: partial wave analysis normal quantum numbers: model comparison (LGT) Glueballs Hybrids mixing with normal mesons charm sector: few resonances with small widths Meson Hybrid Glueball ggg qq qqg Normal meson: 2 fermions P = (-1)L+1 C = (-1)L+S Excited glue: bosonic degree of freedom → exotic quantum numbers eg. JPC=1-+, 0--, 0+-, 2+-… → normal quantum numbers

  7. Measure decay asymmetry of angular distribution of p relative to Λ-Hyperon momentum. Ip(θp) ~ 1+α cos(θp) for Λ Ip(θp) ~ 1+α cos(θp) for Λ CP conservation: α = - α Signal for CP violation: Theoretical prediction: ~10-4 ~ 10-5 Experiment: 1010 reconstructed ΛΛ L=2·1032 cm-2 s-1 → >1 year running p + p → Λ +Λ ↓ ↓ pπ- pπ+ CP violation in Hyperon decay

  8. HESR-Detector Simulations with Pluto event generator Formation of Ψ’and decay in myons electrons similar → calorimeter for large angles. Ψ’→μ+μ- Ψ’→J/Ψ + X ↓ μ+μ-

  9. HESR-detector target spectrometer forward spectrometer Internal target top view Heavy charmed mesons decay in light products with large pt. Solenoid is important.

  10. side view HESR detector

  11. Costs

  12. Collaborations: Working group: LEAR, COSY, SATURNE community Munich Germany Bochum “ Giessen “ Dresden “ Erlangen “ Jülich “ Ferrara Italy Turin “ Krakow Poland Warsaw “ T. Barnes D. Bettoni R. Calabrese M. Düren S. Ganzhur V. Hejny H. Koch U. Lynen V. Metag H. Orth S. Paul K. Peters J. Pochodzalla J. Ritman L. Schmitt C. Schwarz K. Seth W. Weise U. Wiedner

More Related