A. Khan scite author profile

The BABAR Collaboration BABAR, the detector for the SLAC PEP-II asymmetric e + e − B Factory operating at the Υ (4S) resonance, was designed to allow comprehensive studies of CP -violation in B-meson decays. Charged particle tracks are measured in a multi-layer silicon vertex tracker surrounded by a cylindrical wire drift chamber. Electromagnetic showers from electrons and photons are detected in an array of CsI crystals located just inside the solenoidal coil of a superconducting magnet. Muons and neutral hadrons are identified by arrays of resistive plate chambers inserted into gaps in the steel flux return of the magnet. Charged hadrons are identified by dE/dx measurements in the tracking detectors and in a ring-imaging Cherenkov detector surrounding the drift chamber. The trigger, data acquisition and data-monitoring systems , VME-and network-based, are controlled by custom-designed online software. Details of the layout and performance of the detector components and their associated electronics and software are presented.

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Searches for Lepton Flavor Violation in the Decaysτ±→e±γandτ±→μ±γ
Aubert¹,
Karyotakis²,
Lees³
et al. 2010
Phys. Rev. Lett.
560
11
309
1
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Evidence forD0−D¯0Mixing

Aubert¹,

Bóna²,

Boutigny³

et al. 2007

Phys. Rev. Lett.

330

244

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Production and Decay ofΞc0atBABAR

Aubert¹,

Barate²,

Boutigny³

et al. 2005

Phys. Rev. Lett.

186

253

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Using 116.1 fb(-1) of data collected by the BABAR detector, we present an analysis of xi(c)(0) production in B decays and from the cc continuum, with the xi(c)(0) decaying into omega- K+ and xi- pi+ final states. We measure the ratio of branching fractions B(xi(c)(0) --> omega- K+)/B(xi(c)(0) --> xi- pi+) spectrum is measured on and 40 MeV below the upsilon(4S) resonance. From these spectra the branching fraction product B(B --> xi(c)(0)X) x B(xi(c)(0) --> xi- pi+) is measured to be (2.11 +/- 0.19 +/- 0.25) x 10(-4), and the cross-section product sigma(e+ e- --> xi(c)(0)X) x B(xi(c)(0) --> xi- pi+) from the continuum is measured to be (388 +/- 39 +/- 41) fb at a center-of-mass energy of 10.58 GeV.

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Evolution of the Reactor Antineutrino Flux and Spectrum at Daya Bay

An¹,

Balantekin²,

Band³

et al. 2017

Phys. Rev. Lett.

176

225

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The Daya Bay experiment has observed correlations between reactor core fuel evolution and changes in the reactor antineutrino flux and energy spectrum. Four antineutrino detectors in two experimental halls were used to identify 2.2 million inverse beta decays (IBDs) over 1230 days spanning multiple fuel cycles for each of six 2.9 GW$_{\textrm{th}}$ reactor cores at the Daya Bay and Ling Ao nuclear power plants. Using detector data spanning effective $^{239}$Pu fission fractions, $F_{239}$, from 0.25 to 0.35, Daya Bay measures an average IBD yield, $\bar{\sigma}_f$, of $(5.90 \pm 0.13) \times 10^{-43}$ cm$^2$/fission and a fuel-dependent variation in the IBD yield, $d\sigma_f/dF_{239}$, of $(-1.86 \pm 0.18) \times 10^{-43}$ cm$^2$/fission. This observation rejects the hypothesis of a constant antineutrino flux as a function of the $^{239}$Pu fission fraction at 10 standard deviations. The variation in IBD yield was found to be energy-dependent, rejecting the hypothesis of a constant antineutrino energy spectrum at 5.1 standard deviations. While measurements of the evolution in the IBD spectrum show general agreement with predictions from recent reactor models, the measured evolution in total IBD yield disagrees with recent predictions at 3.1$\sigma$. This discrepancy indicates that an overall deficit in measured flux with respect to predictions does not result from equal fractional deficits from the primary fission isotopes $^{235}$U, $^{239}$Pu, $^{238}$U, and $^{241}$Pu. Based on measured IBD yield variations, yields of $(6.17 \pm 0.17)$ and $(4.27 \pm 0.26) \times 10^{-43}$ cm$^2$/fission have been determined for the two dominant fission parent isotopes $^{235}$U and $^{239}$Pu. A 7.8% discrepancy between the observed and predicted $^{235}$U yield suggests that this isotope may be the primary contributor to the reactor antineutrino anomaly.Comment: 7 pages, 5 figure

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A. Khan

The BABAR detector

Searches for Lepton Flavor Violation in the Decaysτ±→e±γandτ±→μ±γ
Aubert¹,
Karyotakis²,
Lees³
et al. 2010
Phys. Rev. Lett.
560
11
309
1
View full text Add to dashboard Cite

Evidence forD0−D¯0Mixing

Production and Decay ofΞc0atBABAR

Evolution of the Reactor Antineutrino Flux and Spectrum at Daya Bay

Contact Info

Product

Resources

About

A. Khan

The BABAR detector

Searches for Lepton Flavor Violation in the Decaysτ±→e±γandτ±→μ±γAubert1, Karyotakis2, Lees3 et al. 2010Phys. Rev. Lett.560113091View full textAdd to dashboardCite

Evidence forD0−D¯0Mixing

Production and Decay ofΞc0atBABAR

Evolution of the Reactor Antineutrino Flux and Spectrum at Daya Bay

Contact Info

Product

Resources

About

Searches for Lepton Flavor Violation in the Decaysτ±→e±γandτ±→μ±γ
Aubert¹,
Karyotakis²,
Lees³
et al. 2010
Phys. Rev. Lett.
560
11
309
1
View full text Add to dashboard Cite