M. Preston scite author profile

The (anti-Proton ANnihiliation at DArmstadt) experiment will be one of the four flagship experiments at the new international accelerator complex FAIR (Facility for Antiproton and Ion Research) in Darmstadt, Germany. will address fundamental questions of hadron physics and quantum chromodynamics using high-intensity cooled antiproton beams with momenta between 1.5 and 15 GeV/c and a design luminosity of up to 2 × 1032 cm−2 s−1. Excellent particle identification (PID) is crucial to the success of the physics program. Hadronic PID in the barrel region of the target spectrometer will be performed by a fast and compact Cherenkov counter using the detection of internally reflected Cherenkov light (DIRC) technology. It is designed to cover the polar angle range from 22° to 140° and will provide at least 3 standard deviations (s.d.) π/K separation up to 3.5 GeV/c, matching the expected upper limit of the final state kaon momentum distribution from simulation. This documents describes the technical design and the expected performance of the Barrel DIRC detector. The design is based on the successful BaBar DIRC with several key improvements. The performance and system cost were optimized in detailed detector simulations and validated with full system prototypes using particle beams at GSI and CERN. The final design meets or exceeds the PID goal of clean π/K separation with at least 3 s.d. over the entire phase space of charged kaons in the Barrel DIRC.

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Feasibility study for the measurement of πN transition distribution amplitudes at P¯
Singh¹,
Erni²,
Krusche³
et al. 2017
Phys. Rev. D
41
1
25
0
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The exclusive charmonium production process inpp annihilation with an associated π 0 mesonpp → J=ψπ 0 is studied in the framework of QCD collinear factorization. The feasibility of measuring this reaction through the J=ψ → e þ e − decay channel with the AntiProton ANnihilation at DArmstadt (PANDA) experiment is investigated. Simulations on signal reconstruction efficiency as well as the background rejection from various sources including thepp → π þ π − π 0 andpp → J=ψπ 0 π 0 reactions are performed with PANDAROOT, the simulation and analysis software framework of thePANDA experiment. It is shown that the measurement can be done atPANDA with significant constraining power under the assumption of an integrated luminosity attainable in four to five months of data taking at the maximum design luminosity.

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PANDA Phase One

Barucca¹,

Davı́²,

Lancioni³

et al. 2021

Eur. Phys. J. A

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The Facility for Antiproton and Ion Research (FAIR) in Darmstadt, Germany, provides unique possibilities for a new generation of hadron-, nuclear- and atomic physics experiments. The future antiProton ANnihilations at DArmstadt (PANDA or $$\overline{\mathrm{P}}$$ P ¯ ANDA) experiment at FAIR will offer a broad physics programme, covering different aspects of the strong interaction. Understanding the latter in the non-perturbative regime remains one of the greatest challenges in contemporary physics. The antiproton–nucleon interaction studied with PANDA provides crucial tests in this area. Furthermore, the high-intensity, low-energy domain of PANDA allows for searches for physics beyond the Standard Model, e.g. through high precision symmetry tests. This paper takes into account a staged approach for the detector setup and for the delivered luminosity from the accelerator. The available detector setup at the time of the delivery of the first antiproton beams in the HESR storage ring is referred to as the Phase One setup. The physics programme that is achievable during Phase One is outlined in this paper.

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Precision resonance energy scans with the PANDA experiment at FAIR

et al. 2019

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This paper summarises a comprehensive Monte Carlo simulation study for precision resonance energy scan measurements. Apart from the proof of principle for natural width and line shape measurements of very narrow resonances with PANDA, the achievable sensitivities are quantified for the concrete example of the charmonium-like X(3872) state discussed to be exotic, and for a larger parameter space of various assumed signal cross-sections, input widths and luminosity combinations. PANDA is the only experiment that will be able to perform precision resonance energy scans of such narrow states with quantum numbers of spin and parities that differ from J P C = 1 −− .

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Near-threshold π− photoproduction on the deuteron

et al. 2020

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The first experimental investigation of the near-threshold cross section for incoherent π − photoproduction on the deuteron γd → π − pp is presented. The total cross section has been measured using an unpolarized tagged-photon beam, a liquid-deuterium target, and three large NaI(Tl) spectrometers. The experimental technique involved detection of the ∼131 MeV gamma ray resulting from the radiative capture of photoproduced π − in the target. The data are compared to theoretical models that give insight into the elementary reaction γn → π − p and pion-nucleon and nucleon-nucleon final-state interactions.

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M. Preston

Technical design report for the $\overline{{\rm{P}}}\mathrm{ANDA}$ Barrel DIRC detector

Feasibility study for the measurement of πN transition distribution amplitudes at P¯
Singh¹,
Erni²,
Krusche³
et al. 2017
Phys. Rev. D
41
1
25
0
View full text Add to dashboard Cite

PANDA Phase One

Precision resonance energy scans with the PANDA experiment at FAIR

Near-threshold π− photoproduction on the deuteron

Contact Info

Product

Resources

About

M. Preston

Technical design report for the $\overline{{\rm{P}}}\mathrm{ANDA}$ Barrel DIRC detector

Feasibility study for the measurement of πN transition distribution amplitudes at P¯Singh1, Erni2, Krusche3 et al. 2017Phys. Rev. D411250View full textAdd to dashboardCite

PANDA Phase One

Precision resonance energy scans with the PANDA experiment at FAIR

Near-threshold π− photoproduction on the deuteron

Contact Info

Product

Resources

About

Feasibility study for the measurement of πN transition distribution amplitudes at P¯
Singh¹,
Erni²,
Krusche³
et al. 2017
Phys. Rev. D
41
1
25
0
View full text Add to dashboard Cite