97 research outputs found

    The OscSNS White Paper

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    There exists a need to address and resolve the growing evidence for short-baseline neutrino oscillations and the possible existence of sterile neutrinos. Such non-standard particles require a mass of ∼1\sim 1 eV/c2^2, far above the mass scale associated with active neutrinos, and were first invoked to explain the LSND νˉμ→νˉe\bar \nu_\mu \rightarrow \bar \nu_e appearance signal. More recently, the MiniBooNE experiment has reported a 2.8σ2.8 \sigma excess of events in antineutrino mode consistent with neutrino oscillations and with the LSND antineutrino appearance signal. MiniBooNE also observed a 3.4σ3.4 \sigma excess of events in their neutrino mode data. Lower than expected neutrino-induced event rates using calibrated radioactive sources and nuclear reactors can also be explained by the existence of sterile neutrinos. Fits to the world's neutrino and antineutrino data are consistent with sterile neutrinos at this ∼1\sim 1 eV/c2^2 mass scale, although there is some tension between measurements from disappearance and appearance experiments. In addition to resolving this potential major extension of the Standard Model, the existence of sterile neutrinos will impact design and planning for all future neutrino experiments. It should be an extremely high priority to conclusively establish if such unexpected light sterile neutrinos exist. The Spallation Neutron Source (SNS) at Oak Ridge National Laboratory, built to usher in a new era in neutron research, provides a unique opportunity for US science to perform a definitive world-class search for sterile neutrinos.Comment: This white paper is submitted as part of the SNOWMASS planning proces

    The MINERν\nuA Data Acquisition System and Infrastructure

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    MINERν\nuA (Main INjector ExpeRiment ν\nu-A) is a new few-GeV neutrino cross section experiment that began taking data in the FNAL NuMI (Fermi National Accelerator Laboratory Neutrinos at the Main Injector) beam-line in March of 2010. MINERν\nuA employs a fine-grained scintillator detector capable of complete kinematic characterization of neutrino interactions. This paper describes the MINERν\nuA data acquisition system (DAQ) including the read-out electronics, software, and computing architecture.Comment: 34 pages, 16 figure

    Measurement of the neutrino component of an anti-neutrino beam observed by a non-magnetized detector

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    Two independent methods are employed to measure the neutrino flux of the anti-neutrino-mode beam observed by the MiniBooNE detector. The first method compares data to simulated event rates in a high purity \numu induced charged-current single \pip (CC1\pip) sample while the second exploits the difference between the angular distributions of muons created in \numu and \numub charged-current quasi-elastic (CCQE) interactions. The results from both analyses indicate the prediction of the neutrino flux component of the pre-dominately anti-neutrino beam is over-estimated - the CC1\pip analysis indicates the predicted \numu flux should be scaled by 0.76±0.110.76 \pm 0.11, while the CCQE angular fit yields 0.65±0.230.65 \pm 0.23. The energy spectrum of the flux prediction is checked by repeating the analyses in bins of reconstructed neutrino energy, and the results show that the spectral shape is well modeled. These analyses are a demonstration of techniques for measuring the neutrino contamination of anti-neutrino beams observed by future non-magnetized detectors.Comment: 15 pages, 7 figures, published in Physical Review D, latest version reflects changes from referee comment

    Application of chitosan-based wound coatings ‘ChitoPran’ in the treatment of patients with burn trauma

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    Introduction. The analysis of clinical experience for using biodegradable wound coating based on «HitoPran» chitosan in treatment of patients with burn trauma is presented.Background. Our work included an analysis of clinical experience for using a biodegradable wound coating based on «HitoPran» chitosan for surgical treatment in patients with local and common thermal burns.Material and Methods. A treatment analysis was conducted in 46 male and female patients, aged from 1 to 63 years with thermal burns on an area of 5 to 56% of the body surface. All injured were given surgical treatment in the complex with the use of low-temperature air plasma of arc discharge with atmospheric pressure in the conditions of our burn center in 2017–2018. Depending on the area and depth of the lesion, the patients were divided into two clinical groups: with local burns of II degree and area to 5% of the body surface and common burns of II and III degree and body surface 10% and more. In the course of early surgical treatment in patients with local border burns, the use of the wound coating «HitoPran» allows to achieve spontaneous epithelialization of wounds in dry environment after dermabrasion or escharotomy within the surface layers of dermis due to chitosan adhesion to the wound bottom, to reduce the number of dressings in the postoperative period. Covering skin grafts with perforation index 1:4 and 1:6 with wound «ChitoPran» coating in case of autodermoplasty in deep burn wounds provides satisfactory cellular epithelialization, reduces risk of regression of grafts, reduces consumption of wound coating and dressing material.Conclusion. Application of Russian modern biodegradable coatings based on «HitoPran» chitosan in complex treatment in patients with local and common burns with different depth allows to optimize local treatment of burn injuries, as well as to reduce the cost of used dressing material in comparison with foreign alternatives

    A Search for Electron Antineutrino Appearance at the Δm2∼\Delta m^2 \sim 1 eV2\mathrm{eV}^{2} Scale

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    The MiniBooNE Collaboration reports initial results from a search for νˉμ→νˉe\bar{\nu}_{\mu}\to\bar{\nu}_e oscillations. A signal-blind analysis was performed using a data sample corresponding to 3.39×10203.39 \times 10^{20} protons on target. The data are consistent with background prediction across the full range of neutrino energy reconstructed assuming quasielastic scattering, 200<EνQE<3000200 < E_{\nu}^{QE} < 3000 MeV: 144 electron-like events have been observed in this energy range, compared to an expectation of 139.2±17.6139.2 \pm 17.6 events. No significant excess of events has been observed, both at low energy, 200-475 MeV, and at high energy, 475-1250 MeV. The data are inconclusive with respect to antineutrino oscillations suggested by data from the Liquid Scintillator Neutrino Detector at Los Alamos National Laboratory.Comment: 5 pages, 3 figures, 2 table

    First Measurement of Monoenergetic Muon Neutrino Charged Current Interactions

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    We report the first measurement of monoenergetic muon neutrino charged current interactions. MiniBooNE has isolated 236 MeV muon neutrino events originating from charged kaon decay at rest (K+→μ+νμK^+ \rightarrow \mu^+ \nu_\mu) at the NuMI beamline absorber. These signal νμ\nu_\mu-carbon events are distinguished from primarily pion decay in flight νμ\nu_\mu and ν‾μ\overline{\nu}_\mu backgrounds produced at the target station and decay pipe using their arrival time and reconstructed muon energy. The significance of the signal observation is at the 3.9σ\sigma level. The muon kinetic energy, neutrino-nucleus energy transfer (ω=Eν−Eμ\omega=E_\nu-E_\mu), and total cross section for these events is extracted. This result is the first known-energy, weak-interaction-only probe of the nucleus to yield a measurement of ω\omega using neutrinos, a quantity thus far only accessible through electron scattering.Comment: 6 pages, 4 figure

    Measurement of the \nu_\mu charged current \pi^+ to quasi-elastic cross section ratio on mineral oil in a 0.8 GeV neutrino beam

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    Using high statistics samples of charged current νμ\nu_\mu interactions, MiniBooNE reports a measurement of the single charged pion production to quasi-elastic cross section ratio on mineral oil (CH2_2), both with and without corrections for hadron re-interactions in the target nucleus. The result is provided as a function of neutrino energy in the range 0.4 GeV <Eν<< E_\nu < 2.4 GeV with 11% precision in the region of highest statistics. The results are consistent with previous measurements and the prediction from historical neutrino calculations.Comment: 4 pages, 2 figure
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