Search results for "Digital signal processing"

showing 10 items of 56 documents

Probing the Merits of Different Event Parameters for the Identification of Light Charged Particles in CHIMERA CsI(Tl Detectors With Digital Pulse Sha…

2013

We investigated the merits of different event parameters in the identification of Light Charged Particles (LCPs) with CsI(Tl) scintillators read out by photodiodes at high incident energy (400 MeV/u). This investigation is made possible by digital signal processing the output signals. As in the conventional analogue case, the digitized signals allow the discrimination of light charged particles by computing the fast and slow components. In addition other identification parameters as the rise time of the output pulses of the CsI(Tl) come out nearly for free. Aim of this paper is the investigation of novel identification plots and the probe of their merits, in particular at relativistic energ…

Nuclear and High Energy PhysicsPhysics::Instrumentation and Detectorsintermediate energy nuclear physicpulse shape analysiScintillatorParticle identificationlaw.inventionOpticslawElectrical and Electronic EngineeringDigital signal processingPhysicsonline digital signal processingSignal processingsezeleCsI(Tl) scintillatorsbusiness.industrypulse shape analysisDetectorCsI(Tl) scintillatorCsI(Tl) scintillators; intermediate energy nuclear physics; online digital signal processing; particle identification; pulse shape analysisCsI(Tl) scintillators; intermediate energy nuclear physics; online digital signal processing; particle identification; pulse shape analysis; Electrical and Electronic Engineering; Nuclear Energy and Engineering; Nuclear and High Energy PhysicsCharged particlePhotodiodeintermediate energy nuclear physicsNuclear Energy and EngineeringRise timeparticle identificationbusinessnuclear physics; heavy-ions; digital signal processing; scintillation detectors
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Silicon Detector Telescope for proton detection in electron scattering reactions at MAMI

2012

Abstract A new Silicon Detector Telescope has been constructed and installed within the experimental facility of the A1 collaboration at Mainz Microtron, with the goal to detect low-energy protons. It consists of seven silicon layers for energy and angle measurement and a plastic scintillator for triggering purposes. The detector subtends a solid angle up to 88 msr, depending on the distance from the target and covers the proton kinetic energy range of 25–41  MeV with the mean energy resolution σ E = 0.47 MeV , operating at 500 kHz. Digital signal processing methods applied for energy reconstruction have been important for keeping the acceptable energy resolution at high counting rates. The…

Nuclear and High Energy PhysicsSiliconPhysics::Instrumentation and Detectorschemistry.chemical_elementScintillator01 natural scienceslaw.inventionNuclear physicsTelescopeOpticslaw0103 physical sciencessilicon detector; digital signal processing; electron scatteringNuclear Experiment010306 general physicsInstrumentationMicrotronPhysicsRange (particle radiation)Spectrometer010308 nuclear & particles physicsbusiness.industryDetectorSolid anglechemistryPhysics::Accelerator PhysicsbusinessNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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COMPASS—A COMPAct decay spectroscopy set-up

2018

Abstract A compact silicon detector array with high spatial granularity and fast, fully digital data recording has been developed and commissioned for the investigation of heavy and superheavy nuclear species. The detector array can be combined in close geometry with large volume germanium detectors. It offers comprehensive particle and photon coincidence and correlation spectroscopy by highly efficient evaporation residue, α , γ , conversion electron and X-ray detection supported by the high granularity of the implantation chip. Access to fast decay events in the sub-microsecond region is made possible by the fast timing properties of the digital signal processing. A novel Si-chip support …

Nuclear and High Energy Physics[formula omitted]Ion beamγαLarge volume Ge detectors7. Clean energy01 natural sciencesSignal99-00Optics0103 physical sciencesSi strip detector[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]010306 general physicsSpectroscopyInstrumentationCE and X-ray spectroscopyDigital signal processingPhysics010308 nuclear & particles physicsbusiness.industryDetectorDigital electronics00-01ChipFilter (video)GranularitybusinessNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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TLMCO-simulation for an open source MPSOC platform under STARSoC environment

2008

In the last decade, the embedded systems become more and more complex. This complexity is due to the fact that these systems contain more heterogeneous hardware and software components (CPUpsilas, DSP, IP, etc.). Such systems called multiprocessor-on-chip (MPSoC) require new design approaches in order to satisfy several constraints, verification time, cost and time to market.

Open sourceOrder (exchange)Computer sciencebusiness.industryTime to marketEmbedded systemComponent-based software engineeringSystem on a chipMPSoCbusinessDigital signal processing2008 International Symposium on System-on-Chip
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Coupling MCNP-DSP and LAHET Monte Carlo Codes for Designing Subcriticality Monitors for Accelerator-Driven Systems

2001

The design of reactivity monitoring systems for accelerator-driven systems must be investigated to ensure that such systems remain subcritical during operation. The Monte Carlo codes LAHET and MCNP-DSP were combined together to facilitate the design of reactivity monitoring systems. The coupling of LAHET and MCNP-DSP provides a tool that can be used to simulate a variety of subcritical measurements such as the pulsed neutron, Rossi-α, or noise analysis measurements.

PhysicsCouplingbusiness.industryMonte Carlo methodParticle acceleratorNoise (electronics)law.inventionCriticalityMonte carlo codelawNeutronNuclear ExperimentbusinessDigital signal processingSimulation
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Implementation and Performance of the Signal Reconstruction in the ATLAS Hadronic Tile Calorimeter

2012

AbstractThe Tile Calorimeter (TileCal) for the ATLAS experiment at the CERN Large Hadron Collider (LHC) is currently taking data with proton-proton collisions. The Tile Calorimeter is a sampling calorimeter with steel as absorber and scintillators as active medium. The scintillators are read-out by wavelength shifting fibers coupled to photomultiplier tubes (PMT). The analogue signals from the PMTs are amplified, shaped and digitized by sampling the signal every 25ns. The TileCal front-end electronics allows to read-out the signals produced by about 10000 channels measuring energies ranging from ∼30 MeV to ∼2 TeV. The read-out system is designed to reconstruct the data in real-time fulfilli…

PhysicsDigital signal processorCalorimeterLarge Hadron ColliderCalorimeter (particle physics)business.industrySignal reconstructionPhysics::Instrumentation and DetectorsATLAS experimentPhysics and Astronomy(all)ATLASSignalSampling (signal processing)Electronic engineeringLHCDetectors and Experimental TechniquesReconstructionbusinessDSPDigital signal processingOptimal FilteringPhysics Procedia
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The ATLAS TileCal read-out drivers signal reconstruction

2009

TileCal is the hadronic calorimeter of the ATLAS experiment at the LHC collider at CERN. The Read-Out Drivers (ROD) are the core of the off-detector electronics. The main components of the RODs are the Digital Signal Processor (DSP) placed on the Processing Unit (PU) dautherboards. This paper describes the DSP code and its performance with calibration and real data. The code is divided into two different parts: the first part contains the core functionalities and the second one the reconstruction algorithms. The core acts as an operating system and it controls the configuration, the data reception, transmission, online monitoring and the synchronization between front-end data and the Trigge…

PhysicsDigital signal processorLarge Hadron ColliderPhysics::Instrumentation and Detectorsbusiness.industrySignal reconstructionATLAS experimentElectrical engineeringTransmission (telecommunications)Nuclear electronicsDetectors and Experimental TechniquesbusinessComputer hardwareDigital signal processingEnergy (signal processing)ComputingMethodologies_COMPUTERGRAPHICS2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC)
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The AD and ELENA orbit, trajectory and intensity measurement systems

2017

This paper describes the new Antiproton Decelerator (AD) orbit measurement system and the Extra Low ENergy Antiproton ring (ELENA) orbit, trajectory and intensity measurement system. The AD machine at European Organization for Nuclear Research (CERN) is presently being used to decelerate antiprotons from 3.57 GeV/c to 100 MeV/c for matter vs anti-matter comparative studies. The ELENA machine, presently under commissioning, has been designed to provide an extra deceleration stage down to 13.7 MeV/c. The AD orbit system is based on 32 horizontal and 27 vertical electrostatic Beam Position Monitor (BPM) fitted with existing low noise front-end amplifiers while the ELENA system consists of 24 \…

PhysicsMeasurement methodMeteorology010308 nuclear & particles physicsSystem of measurementBeam-line instrumentation (beam position and profile monitorsData acquisition concepts/dk/atira/pure/subjectarea/asjc/3100/3105Geodesy01 natural sciences030218 nuclear medicine & medical imagingIntensity (physics)03 medical and health sciences0302 clinical medicine0103 physical sciencesbunch length monitors)Digital signal processing (DSP)TrajectoryPhysics::Accelerator Physicsbeam-intensity monitorsOrbit (control theory)/dk/atira/pure/subjectarea/asjc/2600/2610InstrumentationDigital electronic circuitsMathematical PhysicsJournal of Instrumentation
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DSP Online Algorithms for The ATLAS TileCal Read-Out Drivers

2007

TileCal is the hadronic tile calorimeter of the ATLAS experiment at LHC/CERN. The central element of the back-end system of the TileCal detector is the read-out driver (ROD).The main components of the TileCal ROD are the digital signal processors (DSPs) placed on the processing unit (PU) daughterboards. This paper presents a detailed description of the code developed for the DSPs. The code is divided into two different parts: the first part contains the core functionalities and the second part the reconstruction algorithms. The core acts as an operating system and controls configuration, data reception and transmission and synchronization between front-end data and the timing, trigger and c…

PhysicsNuclear and High Energy PhysicsDigital signal processorLarge Hadron ColliderCalorimeter (particle physics)Physics::Instrumentation and Detectorsbusiness.industryDetectorATLAS experimentNuclear Energy and EngineeringElectronic engineeringElectrical and Electronic EngineeringbusinessCentral elementEnergy (signal processing)Computer hardwareDigital signal processingData transmissionIEEE Transactions on Nuclear Science
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Light Charged Particle Identification by Means of Digital Pulse Shape Acquisition in the CHIMERACsI(Tl) Detectors at GSI Energies

2011

We report the results obtained by applying digital pulse shape acquisition and digital signal processing to the signals from CsI(Tl) scintillators read out by photodiodes at high incident energy (400 MeV/u). The digitized signals allows the discrimination of light charged particles by computing the Fast and Slow components and the Rise Time of the output pulses of the CsI(Tl). When the energies of the light charged particles exceed those corresponding to their ranges in CsI(Tl), the points related to the punching-through particles gather in the corresponding scatter plots giving rise to a cusp. The punching-through points are used as energy calibration points for the reaction products stopp…

PhysicsRadiology Nuclear Medicine and ImagingRadiationsezelePhysics::Instrumentation and Detectorsbusiness.industryDetectorScintillatorRadiationCharged particlePhotodiodelaw.inventionOpticslawRise timebusinessBeam (structure)Digital signal processingNuclear and High Energy Physic
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