I. V. Brodsky scite author profile

Single-spin asymmetries for pions and charged kaons are measured in semi-inclusive deep-inelastic scattering of positrons and electrons off a transversely nuclear-polarized hydrogen target. The dependence of the cross section on the azimuthal angles of the target polarization ([phi]S) and the produced hadron ([phi]) is found to have a substantial sin([phi]+[phi]S) modulation for the production of [pi]+, [pi]- and K+. This Fourier component can be interpreted in terms of non-zero transversity distribution functions and non-zero favored and disfavored Collins fragmentation functions with opposite sign. For [pi]0 and K- production the amplitude of this Fourier component is consistent with zero

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Exact diagrammatic approach for dimer-dimer scattering and bound states of three and four resonantly interacting particles

Brodsky

et al. 2006

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We present a diagrammatic approach for the dimer-dimer scattering problem in two or three spatial dimensions, within the resonance approximation where these dimers are in a weakly bound resonant state. This approach is first applied to the calculation of the dimer-dimer scattering length a B in three spatial dimensions, for dimers made of two fermions in a spin-singlet state, with corresponding scattering length a F , and the already known result a B = 0.60 a F is recovered exactly. Then we make use of our approach to obtain results in two spatial dimensions for fermions as well as for bosons. Specifically, we calculate bound-state energies for three bbb and four bbbb resonantly interacting bosons in two dimensions. We consider also the case of a resonant interaction between fermions and bosons, and we obtain the exact bound-state energies of two bosons plus one fermion bbf, two bosons plus two fermions bf ↑ bf ↓ , and three bosons plus one fermion bbbf.

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Bound states of three and four resonantly interacting particles

et al. 2005

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We present an exact diagrammatic approach for the dimer-dimer scattering problem in two or three spatial dimensions, within the resonance approximation where these dimers are in a weakly bound resonant state. This approach is first applied to the calculation of the dimer-dimer scattering length aB in three spatial dimensions, for dimers made of two fermions in a spin-singlet state, with corresponding scattering length aF and the already known result aB = 0.60 aF is recovered exactly. Then we make use of our approach to obtain new results in two spatial dimensions for fermions as well as for bosons. Specifically, we calculate bound state energies for three bbb and four bbbb resonantly interacting bosons in two dimensions. We consider also the case of resonant interaction between fermions and bosons and we obtain the exact bound state energies of two bosons plus one fermion bbf , two bosons plus two fermions bf ↑ bf ↓ , and three bosons plus one fermion bbbf .

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Characteristics of the phase-separated state in manganites: Relationship with transport and magnetic properties

Кugel

Rakhmanov

Sboychakov

et al. 2004

J. Exp. Theor. Phys.

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I. V. Brodsky

Effects of transversity in deep-inelastic scattering by polarized protons

Exact diagrammatic approach for dimer-dimer scattering and bound states of three and four resonantly interacting particles

Bound states of three and four resonantly interacting particles

Characteristics of the phase-separated state in manganites: Relationship with transport and magnetic properties

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