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NSR database version of April 27, 2024.

Search: Author = T.Brenner

Found 5 matches.

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2017BI08      Phys.Rev. C 95, 045503 (2017)

G.Bison, M.Daum, K.Kirch, B.Lauss, D.Ries, P.Schmidt-Wellenburg, G.Zsigmond, T.Brenner, P.Geltenbort, T.Jenke, O.Zimmer, M.Beck, W.Heil, J.Kahlenberg, J.Karch, K.Ross, K.Eberhardt, C.Geppert, S.Karpuk, T.Reich, C.Siemensen, Y.Sobolev, N.Trautmann

Comparison of ultracold neutron sources for fundamental physics measurements

RADIOACTIVITY ¹n(β^-); measured ultracold neutron (UCN) density, and UCN lifetime inside the storage bottles at Mainz, PSI, PF2 and SUN-2 systems; experimental comparison of the leading UCN sources currently operating using a standard UCN storage bottle with a volume of 32 liters suitable for search for a permanent electric-dipole moment of the neutron (nEDM), and for other studies of fundamental parameters of the neutron in searches for new charge-parity-violating processes or exotic interactions beyond the Standard Model of particle physics.

doi: 10.1103/PhysRevC.95.045503
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2015BR01      Phys.Lett. B 741, 316 (2015)

T.Brenner, S.Chesnevskaya, P.Fierlinger, P.Geltenbort, E.Gutsmiedl, T.Lauer, K.Rezai, J.Rothe, T.Zechlau, R.Zou

A magnetic trap for high-field seeking neutron spin states

RADIOACTIVITY ¹NN(β^-); measured decay products; deduced equipment T_1/2 sensitivity.

doi: 10.1016/j.physletb.2014.12.041
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1988BR30      Z.Phys. D10, 59 (1988)

T.Brenner, S.Buttgenbach, J.Jacobs, M.Koster, H.Roeder, W.Rupprecht, F.Traber

Test of Advanced Hyperfine Structure Theory by Precision Radio-Frequency and Laser Spectroscopy in Molybdenum

NUCLEAR MOMENTS ^95,97Mo; measured hfs; deduced hyperfine constants. ABMR, laser induced fluorescence.

doi: 10.1007/BF01425581
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1985BR09      Nucl.Phys. A440, 407 (1985)

T.Brenner, S.Buttgenbach, W.Rupprecht, F.Traber

Nuclear Moments of the Low Abundant Natural Isotope ¹⁷⁶Lu and Hyperfine Anomalies in the Lutetium Isotopes

NUCLEAR MOMENTS ^175,176Lu; measured μ, hfs; deduced quadrupole moment, hyperfine anomaly, Sternheimer shielding factors. Atomic beam magnetic resonance technique.

doi: 10.1016/0375-9474(85)90237-4
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1984BR09      Z.Phys. A316, 247 (1984)

T.Brenner, S.Buttgenbach, N.Glaeser, M.Koster, H.Roeder, W.Rupprecht, F.Traber

Radio-Frequency and Laser-Spectroscopy Measurements in Molybdenum

NUCLEAR MOMENTS ^95,97Mo; measured hfs; deduced hfs constants, (gJ) factors. ^{100,98,97,95,94,92}Mo deduced isotope shifts relative to ⁹⁶Mo. ABMR, radio frequency, high resolution laser spectroscopy techniques.

doi: 10.1007/BF01412273
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