A. Kandasamy scite author profile

The PHENIX detector is designed to perform a broad study of A-A, p-A, and p-p collisions to investigate nuclear matter under extreme conditions. A wide variety of probes, sensitive to all timescales, are used to study systematic variations with species and energy as well as to measure the spin structure of the nucleon. Designing for the needs of the heavy-ion and polarized-proton programs has produced a detector with unparalleled capabilities. PHENIX measures electron and muon pairs, photons, and hadrons with excellent energy and momentum resolution. The detector consists of a large number of subsystems that are discussed in other papers in this volume. The overall design parameters of the detector are presented. The PHENIX detector is designed to perform a broad study of A-A, p-A, and p-p collisions to investigate nuclear matter under extreme conditions. A wide variety of probes, sensitive to all timescales, are used to study systematic variations with species and energy as well as to measure the spin structure of the nucleon. Designing for the needs of the heavy-ion and polarized-proton programs has produced a detector with unparalleled capabilities. PHENIX measures electron and muon pairs, photons, and hadrons with excellent energy and momentum resolution. The detector consists of a large number of subsystems that are discussed in other papers in this volume. The overall design parameters of the detector are presented. Disciplines Engineering Physics | Physics Comments This is a manuscript of an article from Nuclear Instruments and Methods in Physics Research

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PHENIX central arm tracking detectors

Adcox¹,

Ajitanand²,

Alexander³

et al. 2003

Nuclear Instruments and Methods in Physics Research Section A:

128

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RatCAP: miniaturized head-mounted PET for conscious rodent brain imaging

Vaska

Woody

Schlyer

et al. 2004

IEEE Trans. Nucl. Sci.

108

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Anesthesia is currently required for positron emission tomography (PET) studies of the animal brain in order to eliminate motion artifacts. However, anesthesia profoundly affects the neurological state of the animal, complicating the interpretation of PET data. Furthermore, it precludes the use of PET to study the brain during normal behavior. The rat conscious animal PET tomograph (RatCAP) is designed to eliminate the need for anesthesia in rat brain studies. It is a miniaturized full-ring PET scanner that is attached directly to the head, imaging nearly the entire brain. RatCAP utilizes arrays of 2 mm 2 mm LSO crystals coupled to matching avalanche photodiode arrays, which are in turn read out by full custom integrated circuits. Principal challenges have been addressed considering the physical constraints on size, weight, and heat generation in addition to the usual requirements of small-animal PET, such as high spatial resolution in the presence of parallax error. A partial prototype has been constructed and preliminary measurements and optimization completed. Realistic Monte Carlo simulations have also been carried out to optimize system performance, which is predicted to be competitive with existing microPET systems.Index Terms-Biomedical applications of nuclear radiation, biomedical nuclear imaging, gamma-ray detectors, motion compensation, nervous system, positron emission tomography (PET).

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Front-end electronics for the RatCAP mobile animal PET scanner

Pratte

Geronimo

Junnarkar

et al. 2004

IEEE Trans. Nucl. Sci.

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Analog CMOS peak detect and hold circuits. Part 1. Analysis of the classical configuration

Geronimo

O’Connor

Kandasamy

2002

Nuclear Instruments and Methods in Physics Research Section A:

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A. Kandasamy

PHENIX detector overview

PHENIX central arm tracking detectors

RatCAP: miniaturized head-mounted PET for conscious rodent brain imaging

Front-end electronics for the RatCAP mobile animal PET scanner

Analog CMOS peak detect and hold circuits. Part 1. Analysis of the classical configuration

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