P. Ilten scite author profile

The Pythia program is a standard tool for the generation of events in high-energy collisions, comprising a coherent set of physics models for the evolution from a few-body hard process to a complex multiparticle final state. It contains a library of hard processes, models for initial-and final-state parton showers, matching and merging methods between hard processes and parton showers, multiparton interactions, beam remnants, string fragmentation and particle decays. It also has a set of utilities and several interfaces to external programs. Pythia 8.2 is the second main release after the complete rewrite from Fortran to C++, and now has reached such a maturity that it offers a complete replacement for most applications, notably for LHC physics studies. The many new features should allow an improved description of data. Catalogue identifier of previous version: ACTU v3 0 Journal reference of previous version: T. Sjöstrand, S. Mrenna and P. Skands, Computer Physics Commun. 178 (2008) 852 Does the new version supersede the previous version?: yes Nature of problem: high-energy collisions between elementary particles normally give rise to complex final states, with large multiplicities of hadrons, leptons, photons and neutrinos. The relation between these final states and the underlying physics description is not a simple one, for two main reasons. Firstly, we do not even in principle have a complete understanding of the physics. Secondly, any analytical approach is made intractable by the large multiplicities. Solution method: complete events are generated by Monte Carlo methods. The complexity is mastered by a subdivision of the full problem into a set of simpler separate tasks. All main aspects of the events are simulated, such as hard-process selection, initial-and final-state radiation, beam remnants, fragmentation, decays, and so on. Therefore events should be directly comparable with experimentally observable ones. The programs can be used to extract physics from comparisons with existing data, or to study physics at future experiments. Reasons for the new version: improved and expanded physics models Summary of revisions: hundreds of new features and bug fixes, allowing an improved modeling Restrictions: depends on the problem studied Unusual features: none Running time: 10-1000 events per second, depending on process studied

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LHCb Collaboration

Aaij

et al. 2014

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Test of Lepton Universality UsingB+→K+ℓ+ℓ−Decays

Aaij¹,

Adeva²,

Adinolfi³

et al. 2014

Phys. Rev. Lett.

929

818

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A measurement of the ratio of the branching fractions of the B(+) → K(+)μ(+)μ(-) and B(+) → K(+)e(+)e(-) decays is presented using proton-proton collision data, corresponding to an integrated luminosity of 3.0 fb(-1), recorded with the LHCb experiment at center-of-mass energies of 7 and 8 TeV. The value of the ratio of branching fractions for the dilepton invariant mass squared range 1 < q(2) < 6 GeV(2)/c(4) is measured to be 0.745(-0.074)(+0.090)(stat) ± 0.036(syst). This value is the most precise measurement of the ratio of branching fractions to date and is compatible with the standard model prediction within 2.6 standard deviations.

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Observation of a Narrow Pentaquark State, Pc(4312)+ , and of the Two-Peak Structure of the
Aaij¹,
Beteta²,
Adeva³
et al. 2019
Phys. Rev. Lett.

627

523

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A narrow pentaquark state, P c ð4312Þ þ , decaying to J=ψp, is discovered with a statistical significance of 7.3σ in a data sample of Λ 0 b → J=ψpK − decays, which is an order of magnitude larger than that previously analyzed by the LHCb Collaboration. The P c ð4450Þ þ pentaquark structure formerly reported by LHCb is confirmed and observed to consist of two narrow overlapping peaks, P c ð4440Þ þ and P c ð4457Þ þ , where the statistical significance of this two-peak interpretation is 5.4σ. The proximity of the Σ þ cD 0 and Σ þ cD Ã0 thresholds to the observed narrow peaks suggests that they play an important role in the dynamics of these states.

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Observation ofJ/ψpResonances Consistent with Pentaquark States inΛb0
Aaij¹,
Adeva²,
Adinolfi³
et al. 2015
Phys. Rev. Lett.
1,032
24
525
1
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Observations of exotic structures in the J=ψp channel, which we refer to as charmonium-pentaquark states, in Λ 0 b → J=ψK − p decays are presented. The data sample corresponds to an integrated luminosity of 3 fb −1 acquired with the LHCb detector from 7 and 8 TeV pp collisions. An amplitude analysis of the three-body final state reproduces the two-body mass and angular distributions. To obtain a satisfactory fit of the structures seen in the J=ψp mass spectrum, it is necessary to include two Breit-Wigner amplitudes that each describe a resonant state. The significance of each of these resonances is more than 9 standard deviations. One has a mass of 4380 AE 8 AE 29 MeV and a width of 205 AE 18 AE 86 MeV, while the second is narrower, with a mass of 4449.8 AE 1.7 AE 2.5 MeV and a width of 39 AE 5 AE 19 MeV. The preferred J P assignments are of opposite parity, with one state having spin 3=2 and the other 5=2.

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P. Ilten

An introduction to PYTHIA 8.2

LHCb Collaboration

Test of Lepton Universality UsingB+→K+ℓ+ℓ−Decays

Observation of a Narrow Pentaquark State, Pc(4312)+ , and of the Two-Peak Structure of the
Aaij¹,
Beteta²,
Adeva³
et al. 2019
Phys. Rev. Lett.

Observation ofJ/ψpResonances Consistent with Pentaquark States inΛb0
Aaij¹,
Adeva²,
Adinolfi³
et al. 2015
Phys. Rev. Lett.
1,032
24
525
1
View full text Add to dashboard Cite

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About

P. Ilten

An introduction to PYTHIA 8.2

LHCb Collaboration

Test of Lepton Universality UsingB+→K+ℓ+ℓ−Decays

Observation of a Narrow Pentaquark State, Pc(4312)+ , and of the Two-Peak Structure of the Aaij1, Beteta2, Adeva3 et al. 2019Phys. Rev. Lett.

Observation ofJ/ψpResonances Consistent with Pentaquark States inΛb0Aaij1, Adeva2, Adinolfi3 et al. 2015Phys. Rev. Lett.1,032245251View full textAdd to dashboardCite

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Observation of a Narrow Pentaquark State, Pc(4312)+ , and of the Two-Peak Structure of the
Aaij¹,
Beteta²,
Adeva³
et al. 2019
Phys. Rev. Lett.

Observation ofJ/ψpResonances Consistent with Pentaquark States inΛb0
Aaij¹,
Adeva²,
Adinolfi³
et al. 2015
Phys. Rev. Lett.
1,032
24
525
1
View full text Add to dashboard Cite