Dispersive approach to two-photon exchange in elastic electron-proton scattering

Blunden, P. G.; Melnitchouk, Wally

doi:10.1103/physrevc.95.065209

Cited by 57 publications

(108 citation statements)

References 121 publications

(237 reference statements)

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“…Scattered leptons and recoiling protons were detected in the CLAS spectrometer, a toroidal magnetic spectrometer with nearly 4π coverage. Figure 3: OLYMPUS measured R 2γ to be somewhat lower than theoretical calculations by Blunden et al [23], and Tomalak et al [22], and the phenomenological prediction by Bernauer et al [27].…”

Section: Clas Two-photon Experimentsmentioning

confidence: 67%

“…The grey band below the data shows the 1σ correlated uncertainty, though the correlations are more complicated than a simple scale factor, and will be described in a future article. The predictions from Blunden et al use a dispersive approach to calculate the TPE diagrams with hadronic propagators; the N-only prediction assumes only a nucleon propagator only, while N + ∆ assumes the coherent sum of nucleon and ∆ propagators [23]. The calculation of Tomalak et al uses subtracted dispersion relations to evaluate the TPE diagrams [22].…”

Section: Resultsmentioning

confidence: 99%

“…If hard TPE were properly accounted for, it is possible that the polarization asymmetry and Rosenbluth separation measurements would actually be consistent with each other. Unfortunately, there is no model independent method for calculating hard TPE, though there are numerous model-dependent approaches, such as using hadronic intermediate states [18][19][20], dispersion relations [21][22][23], generalized parton distributions [24], and phenomenological fits [25][26][27]. Many predictions suggest that the inclusion of hard TPE would resolve the form factor discrepancy, while some disagree [28,29].…”

Section: Why Measurementioning

confidence: 99%

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The continuing story of two-photon exchange: results from the OLYMPUS experiment

Schmidt¹

2017

Proceedings of 55th International Winter Meeting on Nuclear Physics — PoS(BORMIO2017)

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Over the past two decades, a discrepancy has emerged between two different techniques for measuring the proton's electromagnetic form factors. Unpolarized electron-proton cross section measurements paint a picture of the proton's internal structure that is incompatible with measurements from polarization transfer experiments. The leading hypothesis is that the discrepancy is caused by a typically neglected radiative correction, hard two-photon exchange (TPE), which would affect the two measurement techniques in different ways. There is no model independent way to calculate hard TPE, but it can be measured experimentally by looking for an asymmetry between the positron-proton and electron-proton elastic cross sections. Three recent experiments have attempted to quantify this asymmetry, and, just last month, the third of these, called OLYMPUS, released its results [1]. The OLYMPUS experiment collected data in 2012 at DESY, alternating between 2 GeV electron and positron beams, directed through a hydrogen gas target. The scattered lepton and recoiling proton were detected in coincidence with a large acceptance toroidal spectrometer. The relative luminosity between the two beam species was monitored with three independent systems, and the results comprise 3 inverse fb of integrated luminosity, exceeding by a factor of three the other two TPE experiments combined. In this talk, the case for the TPE hypothesis will be presented, the OLYMPUS experiment will be described, and the results of all three experiments will be compared.

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Section: Clas Two-photon Experimentsmentioning

confidence: 67%

Section: Resultsmentioning

confidence: 99%

Section: Why Measurementioning

confidence: 99%

See 1 more Smart Citation

The continuing story of two-photon exchange: results from the OLYMPUS experiment

Schmidt¹

2017

Proceedings of 55th International Winter Meeting on Nuclear Physics — PoS(BORMIO2017)

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“…The only significantly large deviation from unity is seen at = 0.46 where R 2γ goes slightly above 2%. Recent dispersion calculations of Blunden [17] seem to overestimate the size of two-photon exchange while capturing its general shape. At the same time, phenomenological predictions of Bernauer and dispersion calculations Tomalak consistently match the data.…”

Section: Pos(dis2017)176mentioning

confidence: 97%

Hard Two-Photon Contribution to Elastic Lepton-Proton Scattering Determined by the OLYMPUS Experiment

Khaneft¹

2017

Proceedings of XXV International Workshop on Deep-Inelastic Scattering and Related Subjects — PoS(DIS2017)

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The OLYMPUS collaboration has recently performed a precise measurement of the positronproton to electron-proton elastic scattering cross section ratio, R 2γ , over a wide range of the virtual photon polarization, 0.456 < < 0.978. This provides a direct measure of hard two-photon exchange in elastic lepton-proton scattering widely thought to explain the discrepancy observed between polarized and unpolarized measurements of the proton form factor ratio,The OLYMPUS results are significantly lower than theoretical calculations that explain the observed discrepancy in terms of two-photon exchange but are in good agreement with predictions based on phenomenological fits to the available form factor data. The motivation for measuring hard two-photon exchange is presented followed by a description of the OLYMPUS experiment and analysis. The important role of soft two-photon contributions from radiative corrections for the analysis is highlighted. Then, the OLYMPUS results are presented and compared with various theoretical calculations. Finally, a comparison between the OLYMPUS and two analogous modern experiments with one of the latest theoretical model is shown.

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“…The contributions with nucleon only (dashed blue curves) and the sum of nucleon and ∆ (solid red curves) intermediate states are compared with data from the VEPP-3 experiment (triangles) [25], with the statistical and systematic uncertainties indicated by the (black) inner and (gray) outer error bars, respectively. Calculations taken from [20]. approach is that for transitions to excited states, described by effective interactions involving derivative couplings, the off-shell dependence leads to divergences in the ε → 1 (or high energy) limit.…”

Section: Introductionmentioning

confidence: 99%

Overview of recent theoretical work on two-photon exchange

Blunden¹

2018

AIP Conference Proceedings

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Abstract. In this contribution I give an overview of recent progress in theoretical calculations of two-photon exchange (TPE) effects in elastic electron-proton scattering. TPE effects are relevant for extractions of proton form factors at high Q 2 , and of the proton radius at very low Q 2 . Recent experiments to directly measure hard TPE effects by comparing positron and electron scattering are discussed from a theoretical perspective.

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Dispersive approach to two-photon exchange in elastic electron-proton scattering

Cited by 57 publications

References 121 publications

The continuing story of two-photon exchange: results from the OLYMPUS experiment

The continuing story of two-photon exchange: results from the OLYMPUS experiment

Hard Two-Photon Contribution to Elastic Lepton-Proton Scattering Determined by the OLYMPUS Experiment

Overview of recent theoretical work on two-photon exchange

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