Does Smoking Intervention Influence Adolescent Substance Use Disorder Treatment Outcomes?

We calculate the Collins fragmentation function in the framework of a spectator model with pseudoscalar pion-quark coupling and a Gaussian form factor at the vertex. We determine the model parameters by fitting the unpolarized fragmentation function for pions and kaons. We show that the Collins function for the pions in this model is in reasonable agreement with recent parametrizations obtained by fits of the available data. In addition, we compute for the first time the Collins function for the kaons.

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Mu2e Conceptual Design Report

Abrams¹,

Alezander²,

Ambrosio³

et al. 2012

130

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Off-axis excitation of hydrogenlike atoms by twisted photons

2013

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We show that the twisted photon states, or photon states with large ($> \hbar$) angular momentum projection ($m_\gamma$) in the direction of motion, can photoexcite atomic levels for a hydrogen-like atom that are novel and distinct and are not restricted by $m_\gamma$, when the symmetry axis of the twisted-photon beam does not coincide with the center of the atomic target. Selection rules are given and interesting implications and observables for the above process are pointed out.Comment: 8 pages, 5 figures; Version to appear in Physical Review A. arXiv admin note: substantial text overlap with arXiv:1304.011

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Hadron optics: Diffraction patterns in deeply virtual Compton scattering

et al. 2006

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Spectral analysis of gluonic pole matrix elements for fragmentation

2008

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The non-vanishing of gluonic pole matrix elements can explain the appearance of single spin asymmetries in high-energy scattering processes. We use a spectator framework approach to investigate the spectral properties of quark-quark-gluon correlators and use this to study gluonic pole matrix elements. Such matrix elements appear in principle both for distribution functions such as the Sivers function and fragmentation functions such as the Collins function. We find that for a large class of spectator models, the contribution of the gluonic pole matrix element in fragmentation functions vanishes. This outcome is important in the study of universality for fragmentation functions and confirms findings using a different approach.Comment: 9 pages, 4 figures, added reference

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Asmita Mukherjee

Collins fragmentation function for pions and kaons in a spectator model

Mu2e Conceptual Design Report

Off-axis excitation of hydrogenlike atoms by twisted photons

Hadron optics: Diffraction patterns in deeply virtual Compton scattering

Spectral analysis of gluonic pole matrix elements for fragmentation

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