Particle acceleration in cosmic sites

Diehl, R.

doi:10.1140/epjd/e2009-00183-8

Cited by 9 publications

(9 citation statements)

References 62 publications

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“…2.2 of [54]. That such a DR is equivalent to the convolution formulae has been shown in [86,54,87]. Here, the polynomiality conditions of GPDs, implemented in the spectral or double distribution representation, are needed to establish the one-to-one correspondences.…”

Section: Dispersion Relations In the Collinear Frameworkmentioning

confidence: 99%

Towards a fitting procedure to deeply virtual meson production – the next-to-leading order case

Müller¹,

Lautenschlager²,

Passek‐Kumerički³

et al. 2014

Nuclear Physics B

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Based on the collinear factorization approach, we present a comprehensive perturbative nextto-leading (NLO) analysis of deeply virtual meson production (DVMP). Our representation in conformal Mellin space can serve as basis for a global fitting procedure to access generalized parton distributions from experimental measurements of DVMP and deeply virtual Compton scattering (DVCS). We introduce a rather general formalism for the evaluation of conformal moments that can be developed further beyond the considered order. We also confirm previous diagrammatical findings in the pure singlet quark channel. Finally, we use the analytic properties of the hard scattering amplitudes to estimate qualitatively the size of radiative corrections and illustrate these considerations with some numerical examples. The results suggest that global NLO GPD fits, including both DVMP and DVCS data, could be more stable than often feared.

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Section: Dispersion Relations In the Collinear Frameworkmentioning

confidence: 99%

Towards a fitting procedure to deeply virtual meson production – the next-to-leading order case

Müller¹,

Lautenschlager²,

Passek‐Kumerički³

et al. 2014

Nuclear Physics B

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“…We add that the applicability of the dissipative framework was established for NLO corrections at leading twist-two and also for the LO result at twist-three level for a scalar target in Ref. [77] and Ref. [78], respectively.…”

Section: B Gpd Modelmentioning

confidence: 99%

Deeply virtual Compton scattering to the twist-four accuracy: Impact of finite-tand target mass corrections

et al. 2014

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We carry out the first complete calculation of kinematic power corrections ∼ t/Q 2 and ∼ m 2 /Q 2 to several key observables in Deeply Virtual Compton Scattering. The issue of convention dependence of the leading twist approximation is discussed in detail. In addition we work out representations for the higher twist corrections in terms of double distributions, Mellin-Barnes integrals and also within a dissipative framework. This study removes an important source of uncertainties in the QCD predictions for intermediate photon virtualities Q 2 ∼ 1-5 GeV 2 that are accessible in the existing and planned experiments. In particular the finite-t corrections are significant and must be taken into account in the data analysis.

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“…These include: a gammaray burst [164], inelastic collisions between high energy cosmic rays and background radiation photons in the astrophysical sources where cosmic rays are accelerated [165,166], inhomogeneities in the spatial distribution of sources of cosmic-ray leptons [167], hadronic processes producing secondary positrons in the very same sites where primary cosmic rays are accelerated [168,169] and s scenario where one (or more) recent suernova event(s) occurred in gas clouds close to the Solar System [170]. Of all possibilities listed above, we focus in the present study on the one which we believe -and intend to argue with the present analysis -is the best motivated: nearby, known galactic pulsars.…”

Section: Pulsars Are Undisputed Sources Of Electron-positronmentioning

confidence: 99%

Dissecting cosmic-ray electron-positron data with Occam’s razor: the role of known pulsars

Profumo¹

2011

Open Physics

182

159

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Ê Ú ¾¿ Ë ÔØ Ñ Ö ¾¼½½ ÔØ ½ ÇØÓ Ö ¾¼½½ ×ØÖ ØWe argue that both the positron fraction measured by PAMELA and the peculiar spectral features reported in the total electron-positron flux measured by ATIC have a very natural explanation in electron-positron pairs produced by nearby pulsars. While this possibility was pointed out a long time ago, the greatly improved quality of current data potentially allow to reverse-engineer the problem: given the regions of pulsar parameter space favored by PAMELA and by ATIC, are there known pulsars that explain the data with reasonable assumptions on the injected electron-positron pairs? In the context of simple benchmark models for estimating the electron-positron output, we consider all known pulsars, as listed in the most complete available catalogue. We find that it is unlikely that a single pulsar be responsible for both the PAMELA positron fraction anomaly and for the ATIC excess, although two single sources are in principle enough to explain both experimental results. The PAMELA excess positrons likely come from a set of mature pulsars (age ∼ ×10 6 yr), with a distance of 0.8-1 kpc, or from a single, younger and closer source like Geminga. The ATIC data require a larger (and less plausible) energy output, and favor an origin associated to powerful, more distant (1-2 kpc) and younger (age ∼ 5 × 10 5 yr) pulsars. We list several candidate pulsars that can individually or coherently contribute to explain the PAMELA and ATIC data. Although generally suppressed, we find that the contribution of pulsars more distant than 1-2 kpc could contribute for the ATIC excess. Finally, we stress the multi-faceted and decisive role that Fermi-LAT will play in the very near future by (1) providing us with an exquisite measurement of the electron-positron flux, (2) unveiling the existence of as yet undetected gamma-ray pulsars, and (3) searching for anisotropies in the arrival direction of high-energy electrons and positrons.

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Particle acceleration in cosmic sites

Cited by 9 publications

References 62 publications

Towards a fitting procedure to deeply virtual meson production – the next-to-leading order case

Towards a fitting procedure to deeply virtual meson production – the next-to-leading order case

Deeply virtual Compton scattering to the twist-four accuracy: Impact of finite-tand target mass corrections

Dissecting cosmic-ray electron-positron data with Occam’s razor: the role of known pulsars

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