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Entanglement Theory Quantum Correlations
Quantum Sensing Metrology
Quantum Simulation
Lorentz-symmetry test at Planck-scale suppression with nucleons in a spin-polarized 133Cs cold atom clock
arXiv
Authors: H. Pihan-Le Bars, C. Guerlin, R. -D. Lasseri, J. -P. Ebran, Q. G. Bailey, S. Bize, E. Khan, P. Wolf
Year
2016
Paper ID
41657
Status
Preprint
Abstract Read
~2 min
Abstract Words
163
Citations
N/A
Abstract
We introduce an improved model that links the frequency shift of the 133Cs hyperfine Zeeman transitions vert F = 3, mF> longleftrightarrow vert F = 4, mF > to the Lorentz-violating Standard-Model Extension (SME) coefficients of the proton and neutron. The new model uses Lorentz transformations developed to second order in boost and additionally takes the nuclear structure into account, beyond the simple Schmidt model used previously in SME analyses, thereby providing access to both proton and neutron SME coefficients including the isotropic coefficient {c}TT. Using this new model in a second analysis of the data delivered by the FO2 dual Cs/Rb fountain at Paris Observatory and previously analysed in arXiv:hep-ph/0601024v1, we improve by up to 12 orders of magnitude the present maximum sensitivities (see arXiv:0801.0287v9) on the {c}Q, {c}TJ and {c}TT coefficients for the neutron and on the {c}TT coefficient for the proton, reaching respectively 10-20, 10-17, 10-13 and 10-15 GeV.
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- We introduce an improved model that links the frequency shift of the ^133Cs hyperfine Zeeman transitions vert F = 3, mF> longleftrightarrow vert F = 4, mF > to the...
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