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Vladimir G. Baryshevsky and Alexander J. Silenko Research Institute for Nuclear Problems

Potential for measurement of the tensor electric and magnetic polarizabilities of the deuteron in storage-ring experiments with polarized beams. Vladimir G. Baryshevsky and Alexander J. Silenko Research Institute for Nuclear Problems of Belarusian State University

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Vladimir G. Baryshevsky and Alexander J. Silenko Research Institute for Nuclear Problems

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  1. Potential for measurement of the tensor electric and magnetic polarizabilities of the deuteron in storage-ring experiments with polarized beams Vladimir G. Baryshevsky and Alexander J. Silenko Research Institute for Nuclear Problems of Belarusian State University WORKSHOP ON HIGH ENERGY SPIN PHYSICS Julich 2010

  2. Overview • Measurement of tensor electric polarizability of the deuteron by the resonance method • Tensor magnetic polarizabilities of the deuteron and other nuclei in storage ring experiments • Measurement of tensor electric and magnetic polarizabilities of the deuteron by the frozen spin method • Summary OUTLINE

  3. Methods of measurement of tensor polarizabilities of the deuteron and other nuclei Methods of measurement of tensor polarizabilities of the deuteron and other nuclei have been proposed by V. Baryshevsky and co-workers: • V. Baryshevsky and A. Shirvel, hep-ph/0503214. • V. G. Baryshevsky, STORI 2005 Conference Proceedings, Schriften des Forschungszentrums Jülich, Matter and Materials, Vol. 30 (2005), pp. 227–230; J. Phys. G: Nucl. Part. Phys. 35, 035102 (2008); hep-ph/0504064; hep-ph/0510158; hep-ph/0603191. • V. G. Baryshevsky and A. A. Gurinovich, hep-ph/0506135.

  4. Method of the coherent elastic scattering amplitude at zero angle f(0) was used

  5. Classical descriptions of spin dynamics was used

  6. V.G. Baryshevsky and co-authors: The tensor electric and magnetic polarizabilities of the deuteron manifest in the EDM experiment with vector-polarized deuteronsand can be measured • The tensor electric polarizability stimulates the buildup of the vertical polarization of vector-polarized deuteron beam • The tensor magnetic polarizability produces the spin rotation with two frequencies instead of one, beating and causes transitions between vector and tensor polarizations

  7. The results have been summarized in the work: V. G. Baryshevsky, J. Phys. G: Nucl. Part. Phys.35, 035102 (2008). Because of a doubt expressed, the results obtained have been confirmed by the very different matrix method: A. J. Silenko, Phys. Rev. C75, 014003 (2007). A. J. Silenko, Phys. Rev. C77, 021001(R) (2008). Three methods give the same results

  8. The tensor electric and magnetic polarizabilities affect the spin and are the rest frame fields

  9. Measurement of tensor electric polarizability of the deuteron by the resonance method • We use the matrix Hamiltonianfordetermining the evolution of the spin wavefunction:

  10. The polarization vector and tensor: The spin matrices:

  11. Measurement of tensor electric polarizability of the deuteron by the resonance method Y. F. Orlov, W. M. Morse, and Y. K. Semertzidis, Phys. Rev.Lett. 96, 214802 (2006). E Resonance Method of Electric-Dipole-Moment Measurements in Storage Rings Oscillating longitudinal electric field stimulates an oscillation of particle velocity in resonance with spin precession

  12. Initial matrix Hamiltonian:

  13. There are two resonance frequencies, ω≈ω0andω≈2ω0:

  14. Connection between the polarization vector and tensor and the spin amplitudes:

  15. Vector- polarized beam (initial horizontal polarization): Θ and ψ are spherical angles Tensor- polarized beam (initialhorizontal polarization and Sl = 0):

  16. Weaker resonance at the frequencyω≈ω0 Stronger resonance at the frequencyω≈2ω0

  17. Final vertical beam polarization for initial horizontal vector polarization and ω≈ω0: Final vertical beam polarization for initial horizontal tensor polarization and ω≈2ω0:

  18. Theoretical data Tensor electric polarizability of deuteron: αT= −6.2 × 10−41 cm3 αT= −6.8× 10−41 cm3 αT= 3.2 × 10−41 cm3 J.-W. Chen, H. W. Grießhammer, M. J. Savage, and R. P.Springer, Nucl. Phys. A644, 221 (1998). X. Ji and Y. Li, Phys. Lett. B591, 76 (2004). J. L. Friar and G. L. Payne, Phys. Rev. C 72, 014004(2005). Tensor magnetic polarizability ofdeuteron: βT= 1.95 × 10−40 cm3 J.-W. Chen, H. W. Grießhammer, M. J. Savage, and R. P.Springer, Nucl. Phys. A644, 221 (1998). X. Ji and Y. Li, Phys. Lett. B591, 76 (2004).

  19. Estimated experimental sensitivity of the resonance method Tensor electric polarizability of deuteron: δαT~ 10−45÷ 10−44cm3 (initial tensor-polarizedbeam) A. J. Silenko, Phys. Rev. C 75, 014003 (2007).

  20. Tensor magnetic polarizabilities of the deuteron and other nuclei in storage ring experiments Tensor magnetic polarizability of the deuteron can be measured without both a resonance field and a restriction of spin rotation Only vertical magnetic field is used A. J. Silenko, Phys. Rev. C 77, 021001(R) (2008).

  21. Whenthe direction of the initial tensor polarization isdefinedby thespherical anglesθand ψ, Whent ~ 1000 s, P║ ~ 1 %. This polarization is measurable.

  22. Measurement of tensor electric and magnetic polarizabilities of the deuteron by the frozen spin method The spin orientation relatively the momentum direction remains unchanged! F. J. M. Farley, K. Jungmann, J. P. Miller, W.M. Morse, Y. F. Orlov, B. L. Roberts, Y. K.Semertzidis, A. Silenko,and E. J. Stephenson, Phys. Rev. Lett. 93, 052001 (2004).

  23. d d

  24. Correction to the Hamilton operator

  25. Whenthe direction of the initial vector polarization isdefinedby thespherical anglesθand ψ,

  26. Whenthe direction of the initial tensor polarization isdefinedby thespherical anglesθand ψ,

  27. Tensor electric and magnetic polarizabilitiesof the deuteron can be measured in the framework of the deuteron electric-dipole-moment (dEDM) experiment Initial beam polarization will be horizontal and the final vertical polarization will be measured D. Anastassopoulos et al., AGS Proposal: Search for a permanent electric dipole moment of the deuteron nucleus at the 10−29 e·cm level, www.bnl.gov/edm/files/pdf/deuteron_proposal_080423_final.pdf Four blocks of data for two opposite states of initial polarization and two beam directionswill be obtained To find the tensor magnetic polarizability of the deuteron, the horizontal components of the polarization vector should be measured

  28. Spin interactions depending on the EDM, the tensor electric polarizability, and the main systematical errors have very different symmetries!

  29. Table. Reversing (+) or conserving (–) the final vertical polarization

  30. For the considered experimental conditions, the sensitivity to the deuteron EDM of 1×10−29e·cm corresponds to measuring the tensor electric and magnetic polarizabilities with an accuracy of δαT≈δβT≈5×10−42 cm3. This estimate is rather conservative and can be improved by excluding the systematical error caused by the field instability which is negligible for the measurement of the tensor polarizabilities.

  31. Summary • Spin dynamics caused by the tensor electric and magnetic polarizabilities of the deuteron and other nuclei in storage rings is calculated • Potential for the measurement of the tensor polarizabilities of the deuteron and other nuclei in experiments with polarized beams is investigated • For the tensor electric polarizability of the deuteron,the resonance method provides the experimental sensitivity of the order of 10−45 ÷ 10−44cm3 • A purely magnetic ring can be used for the measurement of the tensor magnetic polarizability of the deuteron • The frozen spin method provides the experimental sensitivity of the order of δαT≈δβT≈5×10−42 cm3

  32. Thank you for attention

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