t-violation and neutron dynamical diffraction · 2018. 12. 7. · bragg’s law diffraction occurs...
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T-Violation and Neutron Dynamical Diffraction
Ben Heacock
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Outline
1) Bragg Scattering2) Structure Function3) Dynamical Diffraction Hamiltonian4) Experimental techniques and
challenges
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Bragg Dynamical Diffraction
Diffraction from a periodic potential with spatial period ~ neutron wavelength
Observables that depend on the (spin and Q dependent) scattering length density of the crystal
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Crystal Potential
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Bragg’s LawDiffraction occurs if the wavevector matches half the reciprocal lattice vector Vector Law
Reflectivity of radiation that deviations from Bragg, depends on the strength of the interaction between the radiation and the scattering centers
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Bragg ScatteringGeometrically select very specific Q according to a discrete Fourier transform
Intensity and width of momentum space acceptance given by the scattering length density of the crystal
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Neutron Structure Factor
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A stronger spatially (temporally) oscillating potential lessens the beating period between states
P HK
KH
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Potentials and Symmetry
Potential dominated by nuclear scattering
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Spin-Dependence
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Spin-Dependence Coupling Notes
None Multiple H
Non-Centrosymmetric
Schwinger, Non-centrosymmetric
Parity violating
P HK
KH
Effective E-Field ~ 108 V / cm
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Forms of b5
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P HK
KH
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T-Violating and Schwinger Terms
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Dynamical Diffraction Hamiltonian
Index of refraction depends on deviation from Bragg, and +/- state
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Potentials and Symmetry
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Spin-Rotation in crystal depends on
Interference between scattering sites required for terms first order in
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Excitation of Internal States from External Source Wave
Laue Case: Bragg misalignment conserved across the boundary
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Bragg Case: wave vector parallel to the Bragg planes is conserved
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Modified Dispersion
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Modified Dispersion
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Collimation
Collimation effects wavelength spread
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Effective B FieldsAll fields reversed for 𝛼→𝛽 crystal states!
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Theory Summary
Incoming wave excites two states within the crystalThose two states correspond to an increase or decrease in the refractive index which depends on Bragg misalignmentStructure function gives spin and momentum dependence to diffraction operators
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Observables
IntensityFWHM of Bragg peakPendellosungSpin RotationTraps
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Pendellösung
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Vary D or 𝜆 to measure 𝛥𝜙 modulo 2𝜋
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Pendellosung to measure Use Schwinger scattering and phase shift between two spin states
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Alekseev, V.L., Voronin, V.V., Lapin, E.G., Leushkin, E.K., Rumyantsev, V.L., Sumbaev, O.I., Fedorov, V.V., Kasilov, V.I., Lapin, N.I., VI, T. and Shul'ga, N.F., 1989. Measurement of the strong intracrystalline electric field in the Schwinger interaction with diffracted neutrons. J. Exp. Theor. Phys, 69, pp.1083-1085.
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Spin Transport
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Fedorov, V.V., Jentschel, M., Kuznetsov, I.A., Lapin, E.G., Lelievre-Berna, E., Nesvizhevsky, V., Petoukhov, A., Semenikhin, S.Y., Soldner, T., Tasset, F. and Voronin, V.V., 2009. Measurement of the neutron electric dipole moment by crystal diffraction. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 611(2-3), pp.124-128.
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Spin Transport
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Fedorov, V.V., Jentschel, M., Kuznetsov, I.A., Lapin, E.G., Lelievre-Berna, E., Nesvizhevsky, V., Petoukhov, A., Semenikhin, S.Y., Soldner, T., Tasset, F. and Voronin, V.V., 2009. Measurement of the neutron electric dipole moment by crystal diffraction. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 611(2-3), pp.124-128.
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Spin Transport
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Fedorov, V.V., Voronin, V.V. and Braginetz, Y.P., 2011. Search for the neutron EDM by crystal-diffraction method. Test experiment and future progress. Physica B: Condensed Matter, 406(12), pp.2370-2372.
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Spin Transport
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Fedorov, V.V. and Voronin, V.V., 2018. Modern Status of Searches for nEDM, Using Neutron Optics and Diffraction in Noncentrosymmetric Crystals. In Proceedings of the International Conference on Neutron Optics (NOP2017) (p. 011007).
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Sensitivity to Pseudoscalar
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Fedorov, V.V. and Voronin, V.V., 2018. Modern Status of Searches for nEDM, Using Neutron Optics and Diffraction in Noncentrosymmetric Crystals. In Proceedings of the International Conference on Neutron Optics (NOP2017) (p. 011007).
1) Crystal nEDM 2) Improved xtal nEDM 3) Bouncing neutrons 4) UCN Storage5) 3He Storage
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Pulsed Source Advantages
Multiple Bragg Conditions SimultaneouslyTrapping Fraction
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Nakaji, M., Itoh, S., Uchida, Y., Kitaguchi, M. and Shimizu, H., 2018. Search for Neutron EDM by Using Crystal Diffraction Method. In Proceedings of the International Conference on Neutron Optics (NOP2017) (p. 011040).
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Laue Spin Transport with a Pulsed Source
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Nakaji, M., Itoh, S., Uchida, Y., Kitaguchi, M. and Shimizu, H., 2018. Search for Neutron EDM by Using Crystal Diffraction Method. In Proceedings of the International Conference on Neutron Optics (NOP2017) (p. 011040).
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Laue Spin Transport with a Pulsed Source
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Nakaji, M., Itoh, S., Uchida, Y., Kitaguchi, M. and Shimizu, H., 2018. Search for Neutron EDM by Using Crystal Diffraction Method. In Proceedings of the International Conference on Neutron Optics (NOP2017) (p. 011040).
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Pendellosung at a Pulsed Source!
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Itoh, S., Nakaji, M., Uchida, Y., Kitaguchi, M. and Shimizu, H.M., 2018. Pendellösung interferometry by using pulsed neutrons. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 908, pp.78-81.
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Resonators - Precedent
Jaekel, M.R., Jericha, E. and Rauch, H., 2005. New developments in cold neutron storage with perfect crystals. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 539(1-2), pp.335-344.
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THold = 4 s
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Resonators - Precedent
Jaekel, M.R., Jericha, E. and Rauch, H., 2005. New developments in cold neutron storage with perfect crystals. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 539(1-2), pp.335-344.
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Resonators - Quartz
Fedorov, V.V., Voronin, V.V. and Braginetz, Y.P., 2011. Search for the neutron EDM by crystal-diffraction method. Test experiment and future progress. Physica B: Condensed Matter, 406(12), pp.2370-2372.
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Si Resonators
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Dombeck, T., Ringo, R., Koetke, D.D., Kaiser, H., Schoen, K., Werner, S.A. and Dombeck, D., 2001. Measurement of the neutron reflectivity for Bragg reflections off a perfect silicon crystal. Physical Review A, 64(5), p.053607.
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SummaryDynamical diffraction can probe time-violating effects by looking for spin rotation along the reciprocal lattice vector
Visibility of spin transport inside a crystal requires a noncentrosymmetric unit cell
Controlling for Schwinger scattering is both a major challenge and a control
Pulsed sources and resonators show promise for improving current crystal limits by over three orders of magnitude
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Thank You!
Special thanks to M Arif, VV Voronin, H Shimizu, M Kitaguchi, M Nakaji, WM Snow, MG Huber, AR Young, and many others for fruitful discussions
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ReferencesAlekseev, V.L., Voronin, V.V., Lapin, E.G., Leushkin, E.K., Rumyantsev, V.L., Sumbaev, O.I., Fedorov, V.V., Kasilov, V.I., Lapin, N.I., VI, T. and Shul'ga, N.F., 1989. Measurement of the strong intracrystalline electric field in the Schwinger interaction with diffracted neutrons. J. Exp. Theor. Phys, 69, pp.1083-1085.
Fedorov, V.V., Jentschel, M., Kuznetsov, I.A., Lapin, E.G., Lelievre-Berna, E., Nesvizhevsky, V., Petoukhov, A., Semenikhin, S.Y., Soldner, T., Tasset, F. and Voronin, V.V., 2009. Measurement of the neutron electric dipole moment by crystal diffraction. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 611(2-3), pp.124-128.
Fedorov, V.V., Voronin, V.V. and Braginetz, Y.P., 2011. Search for the neutron EDM by crystal-diffraction method. Test experiment and future progress. Physica B: Condensed Matter, 406(12), pp.2370-2372.
Nakaji, M., Itoh, S., Uchida, Y., Kitaguchi, M. and Shimizu, H., 2018. Search for Neutron EDM by Using Crystal Diffraction Method. In Proceedings of the International Conference on Neutron Optics (NOP2017) (p. 011040).
Jaekel, M.R., Jericha, E. and Rauch, H., 2005. New developments in cold neutron storage with perfect crystals. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 539(1-2), pp.335-344.
Dombeck, T., Ringo, R., Koetke, D.D., Kaiser, H., Schoen, K., Werner, S.A. and Dombeck, D., 2001. Measurement of the neutron reflectivity for Bragg reflections off a perfect silicon crystal. Physical Review A, 64(5), p.053607. 38