C. Schwarz scite author profile

The GlueX experiment at Je↵erson Lab has been designed to study photoproduction reactions with a 9-GeV linearly polarized photon beam. The energy and arrival time of beam photons are tagged using a scintillator hodoscope and a scintillating fiber array. The photon flux is determined using a pair spectrometer, while the linear polarization of the photon beam is determined using a polarimeter based on triplet photoproduction. Charged-particle tracks from interactions in the central target are analyzed in a solenoidal field using a central straw-tube drift chamber and six packages of planar chambers with cathode strips and drift wires. Electromagnetic showers are reconstructed in a cylindrical scintillating fiber calorimeter inside the magnet and a lead-glass array downstream. Charged particle identification is achieved by measuring energy loss in the wire chambers and using the flight time of particles between the target and detectors outside the magnet. The signals from all detectors are recorded with flash ADCs and/or pipeline TDCs into memories allowing trigger decisions with a latency of 3.3 µs. The detector operates routinely at trigger rates of 40 kHz and data rates of 600 megabytes per second. We describe the photon beam, the GlueX detector components, electronics, data-acquisition and monitoring systems, and the performance of the experiment during the first three years of operation.

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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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X-ray imaging using a hybrid photon counting GaAs pixel detector

Schwarz

Campbell

Goeppert

et al. 1999

Nuclear Physics B - Proceedings Supplements

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Improved experimental limit onKL→π0
Ohl
¹
,
Adair
²
,
Greenlee
³

et al. 1990
Phys. Rev. Lett.
27
0
11
1
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The not-so-simple pendulum

Schwarz¹

1995

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C. Schwarz

The GlueX beamline and detector

PANDA Phase One

X-ray imaging using a hybrid photon counting GaAs pixel detector

Improved experimental limit onKL→π0
Ohl
¹
,
Adair
²
,
Greenlee
³

et al. 1990
Phys. Rev. Lett.
27
0
11
1
View full text Add to dashboard Cite

The not-so-simple pendulum

Contact Info

Product

Resources

About

C. Schwarz

The GlueX beamline and detector

PANDA Phase One

X-ray imaging using a hybrid photon counting GaAs pixel detector

Improved experimental limit onKL→π0Ohl1, Adair2, Greenlee3 et al. 1990Phys. Rev. Lett.270111View full textAdd to dashboardCite

The not-so-simple pendulum

Contact Info

Product

Resources

About

Improved experimental limit onKL→π0
Ohl
¹
,
Adair
²
,
Greenlee
³

et al. 1990
Phys. Rev. Lett.
27
0
11
1
View full text Add to dashboard Cite