I. E. Stockdale scite author profile

I. E. Stockdale

5Publications

431Citation Statements Received

2Citation Statements Given

How they've been cited

691

414

How they cite others

108

Affiliations

Altair Engineering (United States), University of Cincinnati, University of Rochester

Publications

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Limits on Muon-Neutrino Oscillations in the Mass Range30<Δm2<1000
Stockdale
¹
,
Bodek
²
,
Borcherding
³

et al. 1984
Phys. Rev. Lett.
163
8
152
0
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A search for inclusive muon-neutrino (v^) oscillations has been performed in the Fermilab narrow-band neutrino beam using two detectors running simultaneously at two distances from the neutrino source. The data show no evidence for a distance dependence of the neutrino flux and rule out oscillations of v^ into any other single type of neutrino for 30 < Am 2 < 1000 eV 2 /c 4 and sin 2 (20) > 0.02-0.20.

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Machine Learning in High Energy Physics Community White Paper

Albertsson

Altoe

Anderson

et al. 2018

J. Phys.: Conf. Ser.

180

133

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Partial-wave analysis ofJ/ψ→γKS0K±<

Bai¹,

Blaylock²,

Bolton³

et al. 1990

Phys. Rev. Lett.

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Results from a partial-wave analysis of the decay J/y/-+ yK §K ± n "*" in the K §K ± n + invariant-mass range 1.35-1.6 GeV/c 2 are presented. Within the isobar model, the data in this mass range are best described by a mixture of 0~+ and 1 ++ amplitudes, corresponding to the A r *A' + c.c. (P wave), A^A' + c.c. (5 wave), and <2o(980)/r (5 wave) channels. These results show that r/(1430) is not a J PCs =0 ~ + flo(980);r resonance, but a mixture of overlapping states.

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Direct Measurements of Charmed-D-Meson Hadronic Branching Fractions

Baltrusaitis¹,

Becker²,

Blaylock³

et al. 1986

Phys. Rev. Lett.

168

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A new technique is applied to data collected at the 0(3770) resonance to derive charmed-Dmeson branching fractions without relying on the measurement of D-production cross sections. Measurements are presented for three decay modes of the D° (K~TT + , D~ * and K-TT + TT 0 ) and four decay modes of the D + (K~7r + 7r + , K-TT + TT + TT 0 , K$<7T + , and tf 5°i r + ir 0 ). The resulting branching fractions are significantly larger than previous measurements.

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Measurements ofJ/ψdecays into a vector and a pseudoscalar meson

Coffman¹,

Dubois²,

Eigen³

et al. 1988

Phys. Rev. D

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We present measurements of the two-body decays of the J/$ into a vector and a pseudoscalar meson. The data, taken with the Mark I11 detector at the SLAC e + e -storage ring SPEAR, consist of 5.8 X lo6 produced J/+'s. The branching ratios for the J/$ decays into pn, pg, pq', on0, og, wg', $17, r#Jgl, and K*K are measured; an upper limit on J / $ -~T ' is obtained. Using the measured branching ratios we obtain parameters of a phenomenological model of J/$ decays, indicating that the g and g' are consistent with being composed only of light and strange quarks. The model is used to obtain the mixing angle in the pseudoscalar nonet. The m a 0 electromagnetic form factor is determined. The upper limit on J/*-+r#Jno is used to study the contributions from electromagnetic doubly-Okubo-Zweig-Iizuka-suppressed decays of the J/+.

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I. E. Stockdale

Limits on Muon-Neutrino Oscillations in the Mass Range30<Δm2<1000
Stockdale
¹
,
Bodek
²
,
Borcherding
³

et al. 1984
Phys. Rev. Lett.
163
8
152
0
View full text Add to dashboard Cite

Machine Learning in High Energy Physics Community White Paper

Partial-wave analysis ofJ/ψ→γKS0K±<

Direct Measurements of Charmed-D-Meson Hadronic Branching Fractions

Measurements ofJ/ψdecays into a vector and a pseudoscalar meson

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I. E. Stockdale

Limits on Muon-Neutrino Oscillations in the Mass Range30<Δm2<1000Stockdale1, Bodek2, Borcherding3 et al. 1984Phys. Rev. Lett.16381520View full textAdd to dashboardCite

Machine Learning in High Energy Physics Community White Paper

Partial-wave analysis ofJ/ψ→γKS0K±<

Direct Measurements of Charmed-D-Meson Hadronic Branching Fractions

Measurements ofJ/ψdecays into a vector and a pseudoscalar meson

Contact Info

Product

Resources

About

Limits on Muon-Neutrino Oscillations in the Mass Range30<Δm2<1000
Stockdale
¹
,
Bodek
²
,
Borcherding
³

et al. 1984
Phys. Rev. Lett.
163
8
152
0
View full text Add to dashboard Cite