Methods to determine neutrino flux at low energies

Bodek, A.; Sarica, U.; Naples, D.; Ren, Lu

doi:10.1140/epjc/s10052-012-1973-6

Cited by 38 publications

(87 citation statements)

References 55 publications

(112 reference statements)

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“…In addition, there are new techniques that can be used [16,17] to greatly reduce the experimental systematic uncertainty in asymmetry measurements.…”

Section: Measurements Of Electroweak Parameters At Hadron Collidersmentioning

confidence: 99%

Using Drell–Yan forward–backward asymmetry to reduce PDF uncertainties in the measurement of electroweak parameters

et al. 2016

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The uncertainties in parton distribution functions (PDFs) are the dominant source of the systematic uncertainty in precision measurements of electroweak parameters at hadron colliders (e.g.and the mass of the W boson). We show that measurements of the forward-backward charge asymmetry (A F B (M, y)) of Drell-Yan dilepton events produced at hadron colliders provide a new powerful tool to reduce the PDF uncertainties in these measurements.

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“…In addition, there are new techniques that can be used [16,17] to greatly reduce the experimental systematic uncertainty in asymmetry measurements.…”

Section: Measurements Of Electroweak Parameters At Hadron Collidersmentioning

confidence: 99%

Using Drell–Yan forward–backward asymmetry to reduce PDF uncertainties in the measurement of electroweak parameters

et al. 2016

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“…If one limits the final-state phase space to events with ν less than some cutoff ν 0 (where ν 0 ≪ E ν ) the terms proportional to ν=E ν , ν=E 2 ν , and ν 2 =E 2 ν are small, yielding a cross section that is approximately constant as a function of neutrino energy. The low-ν restricted cross section deviates from a constant value both due to the finite value of ν 0 in practical applications and due to the small Q 2 dependence (Bjorken scaling violation) of the structure functions [19]. While the formulation in Eq.…”

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confidence: 99%

Measurements of the inclusive neutrino and antineutrino charged current cross sections in MINERvA using the low- ν flux method

Devan

2016

Phys. Rev. D

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The total cross sections are important ingredients for the current and future neutrino oscillation experiments. We present measurements of the total charged-current neutrino and antineutrino cross sections on scintillator (CH) in the NuMI low-energy beamline using an in situ prediction of the shape of the flux as a function of neutrino energy from 2-50 GeV. This flux prediction takes advantage of the fact that neutrino and antineutrino interactions with low nuclear recoil energy (ν) have a nearly constant cross section as a function of incident neutrino energy. This measurement is the lowest energy application of the low-ν flux technique, the first time it has been used in the NuMI antineutrino beam configuration, and demonstrates that the technique is applicable to future neutrino beams operating at multi-GeV energies. The cross section measurements presented are the most precise measurements to date below 5 GeV.

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“…If nuclear transverse enhancement in the vector form factors is accounted for, the data are best fit with a modified dipole form factor with M A = 1.10 ± 0.03 GeV. In a previous communication [1] we present the application of the 'low-ν' method to the extraction of neutrino (ν µ ) flux for energies (E ν ) as low as 0.7 GeV. In this paper we extend the technique to E ν as low as 0.4 GeV and extract the relative energy dependence of the ν µ flux for the MiniBooNE experiment as an example.…”

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confidence: 98%

“…At low-ν, if we integrate the cross section from ν min ≈ 0 up to ν= ν cut (where ν cut is small), we can write the 'low-ν' cross section [1] in terms of an energy independent term which is proportional to the structure function W 2 , and small energy dependent corrections which are proportional to ν/E, or m 2 µ /E 2 where m − µ is the mass of the muon.…”

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Extraction of neutrino flux with the low ν method at MiniBooNE energies

Bodek

Sarica

Kuzmin

et al. 2013

AIP Conference Proceedings

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Abstract. We describe the application of the 'low-ν' method to the extraction of the neutrino flux at MiniBooNE energies. As an example, we extract the relative energy dependence of the flux from published MiniBooNE quasielastic scattering cross sections with ν < 0.2 GeV and ν < 0.1 GeV (here ν is the energy transfer to the target). We find that the flux extracted from the 'low-ν' cross sections is consistent with the nominal flux used by MiniBooNE. We fit the MiniBooNE cross sections over the entire kinematic range to various parametrizations of the axial form factor. We find that if the overall normalization of the fit is allowed to float within the normalization errors, the extracted values of the axial vector mass are independent of the flux. Within the Fermi gas model, the Q 2 distribution of the MiniBooNE data is described by a standard dipole form factor with M A = 1.41 ± 0.04 GeV. If nuclear transverse enhancement in the vector form factors is accounted for, the data are best fit with a modified dipole form factor with M A = 1.10 ± 0.03 GeV. In a previous communication [1] we present the application of the 'low-ν' method to the extraction of neutrino (ν µ ) flux for energies (E ν ) as low as 0.7 GeV. In this paper we extend the technique to E ν as low as 0.4 GeV and extract the relative energy dependence of the ν µ flux for the MiniBooNE experiment as an example.The charged current ν µ (ν µ ) differential cross section can be written in terms of the square of the four momentum (Q 2 ) and energy transfer (ν) to the target nucleus. At low-ν, if we integrate the cross section from ν min ≈ 0 up to ν= ν cut (where ν cut is small), we can write the 'low-ν' cross section [1] in terms of an energy independent term which is proportional to the structure function W 2 , and small energy dependent corrections which are proportional to ν/E, or m 2 µ /E 2 where m − µ is the mass of the muon.

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Methods to determine neutrino flux at low energies

Cited by 38 publications

References 55 publications

Using Drell–Yan forward–backward asymmetry to reduce PDF uncertainties in the measurement of electroweak parameters

Using Drell–Yan forward–backward asymmetry to reduce PDF uncertainties in the measurement of electroweak parameters

Measurements of the inclusive neutrino and antineutrino charged current cross sections in MINERvA using the low- ν flux method

Extraction of neutrino flux with the low ν method at MiniBooNE energies

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