60 research outputs found
The Transverse Spin
Contents :
1. Pre-history
2. Transversity versus helicity
3. The massless limit. "Cardan" and "see-saw" transformations
4. Transversity distribution delta q(x). The diquark spectator model
5. Soffer inequality
6. Tensor charge sum rule
7. t-channel analysis
8. Selection rules for delta q(x) measurements
9. Evolution with Q squared
10. Quark polarimetry. The sheared-jet (Collins) effect
11. Single-spin asymmetries in inclusive experiments
12. Quark distribution dependent on both spin and transverse momentum
13. First evidence of quark transversityComment: 20 pages, 7 figures. Lecture given at Xeme Seminaire Rhodanien de
Physique "Le Spin en Physique", 3-8 March, Torino, Italy. To appear in the
proceeding
Measuring transverse spin correlations by 4-particle correlations in
The azimuthal distribution of pairs of particles in a jet is sensitive to the
transverse polarization of the quark initiating the jet, but with a sensitivity
that involves a nonperturbative analyzing power. We show in detail how to
measure the analyzing power from 4-hadron correlations in . We explain the combinations of particle flavor that are likely to give
the biggest effect.Comment: 19 pages in RevTeX 3.0 and epsf, with 3 figure files (tarred,
compressed uuencoded encapsulated postcript). Postscript version of paper
available at ftp://ftp.phys.psu.edu/pub/preprint/psuth158/psuth158.ps Revised
version has extra references, and correction of misprint in Eq. (7
Bunch coherence in parametric X-ray radiation
The amplitude of Parametric X-ray radiation emitted coherently by a bunch of
electrons crossing a crystal (CPXR) is calculated. When the bunch density is
modulated with a longitudinal period close to the X-ray wavelenght,
constructive many-electron interferences enhance the intensity by Nb *
|F(K)|^2, where Nb is the number of electrons in the bunch, F(K) the bunch form
factor and K a specified wave vector. CPXR can be used to test the
microbunching in a X-ray free-electron laser.Comment: 6 pages, no figure. Presented at NATO Advanced Research Workshop on
Electron-Photon Interaction in Dense Media (Nor Hamberd, Armenia, 25-29 June,
2001
Dynamics of a magnetic monopole in matter, Maxwell equations in dyonic matter and detection of electric dipole moments
For a monopole, the analogue of the Lorentz equation in matter is shown to be
f = g (H - v cross D). Dual-symmetric Maxwell equations, for matter containing
hidden magnetic charges in addition to electric ones, are given. They apply as
well to ordinary matter if the particles possess T-violating electric dipole
moments. Two schemes of experiments for the detection of such moments in
macroscopic pieces of matter are proposed.Comment: 7 pages, 3 figures. Presented at the Int. Conf. QEDSP 2001, dedicated
to the 90th anniversary of Alexander Il'ich Akhiezer (Kharkov, Ukraine, Oct.
30 - Nov. 3, 2001). To appear in the proceeding
Positivity Constraints on Spin Observables in Exclusive Pseudoscalar Meson Photoproduction
Positivity constraints have proved to be important for spin observables of
exclusive reactions involving polarized initial and final particles. Attention
is focused in this note on the photoproduction of pseudoscalar mesons from spin
1/2 baryons, more specifically gamma+ N -> K+ Lambda, gamma+ N -> K Sigma, for
which new experimental data are becoming available.Comment: 3 pages,RevTex, 1 figure, more details on the derivation, refs.
added, to appear in Phys. Rev.
Side-slipping of a radiating particle
Radiation reaction is revisited, first in a new classical aproach, where the
physical particle 4-momentum is redefined as the energy-momentum flux across
the future light cone and is not parallel to the 4-velocity. Then in a
semi-classical approach, it is shown that, when emitting a photon, the particle
"side-slips" transversaly to its initial momentum, justifying the
non-colinearity between momentum and mean velocity. Side-slipping is finally
checked in a pure quantum mechanical treatment of synchrotron radiation.Comment: 8 pages, 6 figures. presented at the Int. Conf. QEDSP 2001, dedicated
to the 90th anniversary of A.I.Akhiezer, Kharkov (Ukraine) Oct. 30 - Nov. 3,
2001 To appear in the proceeding
Constraints on spin observables
Positivity constrains the allowed domain for sets of spin observables in
exclusive or inclusive reactions. Examples are given for strangeness-echange
reactions and photoproduction.Comment: 4 pages, to appear in the Proc. QCD08, MOntpellier, France, July
2008, ed. S. Nariso
Spin observables and spin structure functions: inequalities and dynamics
Model-independent identities and inequalities relating the various spin
observables of a reaction are reviewed in a unified formalism, together with
their implications for dynamical models, their physical interpretation, and the
quantum aspects of the information carried by spins, in particular
entanglement. These constraints between observables can be obtained from the
explicit expression of the observables in terms of a set of amplitudes, a
non-trivial algebraic exercise which can be preceded by numerical simulation
with randomly chosen amplitudes, from anticommutation relations, or from the
requirement that any polarisation vector is less than unity. The most powerful
tool is the positivity of the density matrices describing the reaction or its
crossed channels, with a projection to single out correlations between two or
three observables. For the exclusive reactions, the cases of the
strangeness-exchange proton-antiproton scattering and the photoproduction of
pseudoscalar mesons are treated in some detail: all triples of observables are
constrained, and new results are presented for the allowed domains. The
positivity constraints for total cross-sections and single-particle inclusive
reactions are reviewed, with application to spin-dependent structure functions
and parton distributions. The corresponding inequalities are shown to be
preserved by the evolution equations of QCD.Comment: 135 pages, 37 figures, pdflatex, to appear in Physics Reports, new
subsections added, typos corrected, references adde
Classical and Quantum Phenomenology in Radiation by Relativistic Electrons in Matter or in External Fields
Phenomenological aspects of radiation by relativistic electrons in external
field, in matter or the vicinity of matter are reviewed, among which: infrared
divergence, coherence length effects, shadowing, enhancement in aligned
crystals, quantum recoil and spin effects, electron side-slipping, photon
impact parameter and the presence of tunnelling in the radiation process.Comment: 15 pages, 1 figure. Talk given at 6th International Conference -
Channeling 2014 Charged & Neutral Particles Channeling Phenomena October
5-10, 2014 Capri (Naples) Ital
Model-independent constraints on spin observables
We discuss model-independent constraints on spin observables in exclusive and
inclusive reactions, with special attention to the case of photoproduction.Comment: 6 pages, 5 figures, Talk by J.-M. Richard at NSTAR 2009, IHEP,
Beijing (China), April 19-22, 2009, Proc. to appear in "Chinese Physics C
- …
