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• W2906551437 abstract "The electromagnetic processes of annihilation of $(e^+ e^-)$ pairs, generated in high-energy nucleus-nucleus and hadron-nucleus collisions, into heavy flavor lepton pairs are theoretically studied in the one-photon approximation, using the technique of helicity amplitudes . For the process $e^+e^- rightarrow mu^+mu^-$, it is shown that -- in the case of the unpolarized electron and positron -- the final muons are also unpolarized but their spins are strongly correlated. For the final $(mu^+ mu^-)$ system, the structure of triplet states is analyzed and explicit expressions for the components of the spin density matrix and correlation tensor are derived. It is demonstrated that here the spin correlations of muons have the purely quantum character, since one of the Bell-type incoherence inequalities for the correlation tensor components is always violated ( i.e. there is always one case when the modulus of sum of two diagonal components exceeds unity ). Besides, the additional contribution of the weak interaction of lepton neutral currents through the virtual $Z^0$ boson is considered in detail, and it is established that, when involving the weak interaction contribution, the qualitative character of the muon spin correlations does not change. On the other hand, the theoretical investigation of spin structure for the processes of lepton pair production by pairs of photons ( which, in particular, may be emitted in relativistic heavy-ion and hadron-nucleus collisions ) is performed as well. For the two-photon process $gamma gamma rightarrow e^+ e^-$, it is found that -- quite similarly to the process $e^+ e^- rightarrow mu^+ mu^-$ -- in the case of unpolarized photons the final electron and positron remain unpolarized, but their spins prove to be strongly correlated. Explicit expressions for the components of the correlation tensor and for the relative fractions of singlet and triplet states of the final $(e^+ e^-)$ system are derived. Again, here one of the Bell-type incoherence inequalities for the correlation tensor components is always violated and, thus, spin correlations of the electron and positron have the strongly pronounced quantum character. Analogous analysis can be wholly applied as well, respectively, to the annihilation process $e^+ e^- rightarrow tau^+ tau^-$ and to the two-photon processes $gamma gamma rightarrow mu^+ mu^-$, $gamma gamma rightarrow tau^+ tau^-$, which become possible at considerably higher energies." @default.
• W2906551437 created "2019-01-01" @default.
• W2906551437 creator A5030949359 @default.
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• W2906551437 date "2018-10-03" @default.
• W2906551437 modified "2023-09-26" @default.
• W2906551437 title "On the spin correlations of final leptons produced in the annihilation processes $e^+ e^- to mu^+ mu^-, tau^+ tau^-$ and in the high-energy two-photon processes $gamma gamma to e^+ e^-, mu^+ mu^-, tau^+ tau^-$" @default.
• W2906551437 doi "https://doi.org/10.22323/1.321.0001" @default.
• W2906551437 hasPublicationYear "2018" @default.
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