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Cosmic Rays with the LEP detectors

This talk delves into abstracts 316 and 590 focusing on the results from L3+C experiment and cosmic multi-muon bundles detected by DELPHI. It covers the vertical muon spectrum, charge ratio, zenith dependence, muon multiplicities, and primary composition. The detectors such as L3+C, ALEPH, and DELPHI are discussed along with their properties and measurements. The talk includes simulation setups, reconstructed events, and challenges in interpreting muon multiplicities. New results on the muon spectrum and charge ratio are presented, while the muon multiplicity distributions pose challenges to current models. DELPHI and L3+C continue to analyze cosmic ray-induced muons.

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Cosmic Rays with the LEP detectors

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  1. Cosmic Rays with the LEP detectors Charles Timmermans University of Nijmegen

  2. This talk covers abstracts 316 and 590: Results from the L3+C experiment Cosmic multi-muon bundles detected by DELPHI

  3. The following topics are discussed: The vertical muon spectrum and charge ratio The zenith dependence of the muon spectrum and charge ratio Muon multiplicities and the composition of the primary Other topics are also studied by the LEP detectors (L3+C, ALEPH and DELPHI) (long range correlations, point sources, etc), but these are not reported here.

  4. The Detectors

  5. The Detectors

  6. Properties DELPHI L3+C P >~50 GeV Fine granularity HCAL Cosmic trigger in standard readout 90K multi-muon events P > ~ 15 GeV High precision drift chamber in B-field (0.5 T) Dedicated DAQ 12 109 events

  7. L3+C event

  8. The Muon Spectrum An absolute measurement of the muon spectrum is one of the main inputs to the neutrino spectrum. L3+C offers an absolute measurement between 80 and 1000 GeV. A range not well covered by other experiments.

  9. The vertical spectrum Lower limit: uncertainties in understanding overburden. Above 200 GeV: shape depends on understanding the momentum resolution Momentum dependence of detector response and reconstruction effects are being studied.

  10. The Charge Ratio Above 300 GeV uncertainties in understanding the alignment limit this measurement

  11. Zenith dependence

  12. Muon Multiplicity Study The muon density depends on the primary composition and energy. These are hard to disentangle. L3+C combines the muon measurement with an air shower array for part of 2000. DELPHI has a better detector for counting the muons, as these are followed through HCAL.

  13. Simulation Setup

  14. L3+C air shower setup Reconstructed EAS-event

  15. Shower Size The shower size distribution is well described by protons.

  16. Multiplicity vs Shower Size However, simulations of the muon multiplicity show that the data is not easily interpreted. The simulations underestimate the number of muons in the detector, even for relatively low multiplicities.

  17. Higher multiplicities L3+C has problems in counting, and relies on manual scanning.

  18. DELPHI event

  19. Multiplicity DELPHI PRELIMINARY Nm > 3: 89991 events Nm 30: 1065 events Nm 70: 78 events Nm 100: 24 events

  20. Detection Area

  21. Comparison to simulation DELPHI PRELIMINARY The MC results are normalized to the live time of the experiment

  22. Conclusions • New results on the muon spectrum and charge ratio have been presented. • These results are well described by current calculations. • The measured muon multiplicity distributions are not well described by current models. DELPHI shows that there are problems at high multiplicities, L3+C has problems already at modest multiplicities. • Both DELPHI and L3+C are still working on the analysis of the cosmic ray induced muons.

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