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QCD Compositeness as Revealed in Exclusive Vector Boson Reactions through Double-Photon Annihilation: $e^+ e^- \to ����^\ast \to ��V^0 $ and $e^+ e^- \to ��^\ast ��^\ast \to V^0 V^0$
- Publication Year :
- 2016
- Publisher :
- arXiv, 2016.
-
Abstract
- We study the exclusive double-photon annihilation processes, $e^+ e^- \to ����^\ast\to ��V^0$ and $e^+ e^- \to ��^\ast ��^\ast \to V^0_a V^0_b,$ where the $V^0_i$ is a neutral vector meson produced in the forward kinematical region: $s \gg -t$ and $-t \gg ��_{\rm QCD}^2$. We show how the differential cross sections $\frac{d��}{dt}$, as predicted by QCD, have additional falloff in the momentum transfer squared $t$ due to the QCD compositeness of the hadrons, consistent with the leading-twist fixed-$��_{\rm CM} $ scaling laws. However, even though they are exclusive channels and not associated with the conventional electron-positron annihilation process $e^+ e^- \to ��^\ast \to q \bar q,$ these total cross sections $��(e^+ e^- \to ��V^0) $ and $��(e^+ e^- \to V^0_a V^0_b),$ integrated over the dominant forward- and backward-$��_{\rm CM}$ angular domains, scale as $1/s$, and thus contribute to the leading-twist scaling behavior of the ratio $R_{e^+ e^-}$. We generalize these results to exclusive double-electroweak vector-boson annihilation processes accompanied by the forward production of hadrons, such as $e^+ e^- \to Z^0 V^0$ and $e^+ e^- \to W^-��^+$. These results can also be applied to the exclusive production of exotic hadrons such as tetraquarks, where the cross-section scaling behavior can reveal their multiquark nature.<br />10 pages
Details
- Database :
- OpenAIRE
- Accession number :
- edsair.doi...........9d2e1d0b7db8f6d6ff9d3647ecdbf2bb
- Full Text :
- https://doi.org/10.48550/arxiv.1609.06635