W. Yan scite author profile

The Main Injector Neutrino Oscillation Search (MINOS) experiment uses an acceleratorproduced neutrino beam to perform precision measurements of the neutrino oscillation parameters in the "atmospheric neutrino" sector associated with muon neutrino disappearance. This long-baseline experiment measures neutrino interactions in Fermilab's NuMI neutrino beam with a near detector at Fermilab and again 735 km downstream with a far detector in the Soudan Underground Laboratory in northern Minnesota. The two detectors are magnetized steel-scintillator tracking calorimeters. They are designed to be as similar as possible in order to ensure that differences in detector response have minimal impact on the comparisons of event rates, energy spectra and topologies that are essential to MINOS measurements of oscillation parameters. The design, construction, calibration and performance of the far and near detectors are described in this paper.

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Observation of Muon Neutrino Disappearance with the MINOS Detectors in the NuMI Neutrino Beam

Michael¹,

Adamson²,

Alexopoulos³

et al. 2006

Phys. Rev. Lett.

512

341

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Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques

Adloff¹,

Blaha²,

Blaising³

et al. 2012

J. Inst.

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The energy resolution of a highly granular 1 m 3 analogue scintillator-steel hadronic calorimeter is studied using charged pions with energies from 10 GeV to 80 GeV at the CERN SPS. The energy resolution for single hadrons is determined to be approximately 58%/ E/GeV. This resolution is improved to approximately 45%/ E/GeV with software compensation techniques. These techniques take advantage of the event-by-event information about the substructure of hadronic showers which is provided by the imaging capabilities of the calorimeter. The energy reconstruction is improved either with corrections based on the local energy density or by applying a single correction factor to the event energy sum derived from a global measure of the shower energy density. The application of the compensation algorithms to GEANT4 simulations yield resolution improvements comparable to those observed for real data.

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First observations of separated atmosphericνμandν¯μevents in the MINOS detector

Adamson¹,

Alexopoulos²,

Allison³

et al. 2006

Phys. Rev. D

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Construction and commissioning of the CALICE analog hadron calorimeter prototype

Adloff¹,

Karyotakis²,

Repond³

et al. 2010

J. Inst.

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An analog hadron calorimeter (AHCAL) prototype of 5.3 nuclear interaction lengths thickness has been constructed by members of the CALICE Collaboration. The AHCAL prototype consists of a 38-layer sandwich structure of steel plates and highly-segmented scintillator tiles that are read out by wavelength-shifting fibers coupled to SiPMs. The signal is amplified and shaped with a custom-designed ASIC. A calibration/monitoring system based on LED light was developed to monitor the SiPM gain and to measure the full SiPM response curve in order to correct for non-linearity. Ultimately, the physics goals are the study of hadron shower shapes and testing the concept of particle flow. The technical goal consists of measuring the performance and reliability of 7608 SiPMs. The AHCAL was commissioned in test beams at DESY and CERN. The entire prototype was completed in 2007 and recorded hadron showers, electron showers and muons at different energies and incident angles in test beams at CERN and Fermilab.

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W. Yan

The magnetized steel and scintillator calorimeters of the MINOS experiment

Observation of Muon Neutrino Disappearance with the MINOS Detectors in the NuMI Neutrino Beam

Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques

First observations of separated atmosphericνμandν¯μevents in the MINOS detector

Construction and commissioning of the CALICE analog hadron calorimeter prototype

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