References quoted in the ENSDF dataset: 191IR 191IR(G,G): MOSSBAUER
16 references found.
Clicking on a keynumber will list datasets that reference the given article.
Z.Naturforsch. 14a, 211 (1959)
R.L.Mossbauer
Kernresonanzabsorption von γ-Strahlung in Ir191
RADIOACTIVITY 191Ir(γ, γ), E not given; measured not abstracted. 191Ir level deduced T1/2.
Z.Naturforsch. 19a, 1409 (1964)
F.Wittmann
Winkelverteilung Resonant Gestreuter γ-Quanten
NUCLEAR STRUCTURE 191Ir; measured not abstracted; deduced nuclear properties.
Phys.Letters 25B, 115 (1967)
S.Jha, W.R.Owens, M.C.Gregory, B.L.Robinson
The Mossbauer Effect in 191Ir and 189Os
NUCLEAR REACTIONS 191Ir(γ, γ), E=82.4 keV; measured Mossbauer effect. 191Ir level deduced T1/2. 189Os(γ, γ), E=69.6 keV; measured Mossbauer effect. 189Os level deduced T1/2.
doi: 10.1016/0370-2693(67)90196-7
Phys.Letters 25B, 253 (1967)
F.Wagner, J.Klockner, H.J.Korner, H.Schaller, P.Kienle
Isomer Shift and Quadrupole Splitting in 191Ir and 193Ir
NUCLEAR REACTIONS 191Ir(γ, γ), E=82, 129 keV; 193Ir(γ, γ), E=73, 139 keV; measured Mossbauer effect; deduced isomer shifts. 191,193Ir; deduced quadrupole moment.
doi: 10.1016/0370-2693(67)90002-0
Z.Physik 207, 500 (1967)
F.Wagner, G.Kaindl, P.Kienle, H.J.Korner
Nuclear g-Factors of the First Excited States in Ir191 and Ir193
NUCLEAR REACTIONS 191Ir(γ, γ), E=82 keV; 193Ir(γ, γ), E=73 keV; measured Mossbauer effect. 191,193Ir levels deduced g, γ-mixing.
Yadern.Fiz. 7, 735 (1968); Soviet J.Nucl.Phys. 7, 447 (1968)
A.V.Davydov, G.R.Kartashov, Y.V.Khrudev
Resonant Scattering of 129-keV Gamma Rays of Ir191
NUCLEAR REACTIONS 191Ir(γ, γ), E=0.129 MeV; measured Mossbauer effect, γγ(θ, H). 191Ir level deduced μ, γ-mixing. Ge(Li) detector.
Phys.Rev. 185, 1555 (1969)
W.R.Owens, B.L.Robinson, S.Jha
Gyromagnetic Ratio of the 129-keV State in Iridium-191
RADIOACTIVITY 191Pt; measured Xce-, Xγ-delay, γγ(θ, H).
NUCLEAR REACTIONS 191Ir(γ, γ); E = 82.4, 129 keV; measured Mossbauer effect. 191Ir levels deduced T1/2, g, B(M1), μ.
Z.Physik 221, 281 (1969)
P.Steiner, E.Gerdau, W.Hautsch, D.Steenken
Determination of the Mean Life of Some Excited Nuclear States by Mossbauer Experiments
NUCLEAR REACTIONS 191,193Ir, 197Au, 181Ta, 99Tc(γ, γ), E = 77-140 keV; measured Mossbauer effect. 191,193Ir, 197Au, 181Ta, 99Tc deduced levels, T1/2.
Acta Phys. 34, 97 (1973)
A.Veres, I.Pavlicsek, M.Csuros, L.Lakosi
Nuclear Excitation by γ Rays of Radioactive Sources
NUCLEAR REACTIONS 77Se, 79Br, 87Sr, 107,109Ag, 111,113Cd, 113,115In, 117,119Sn, 123,125Te, 167Er, 176Lu, 183W, 191,193Ir, 195Pt, 197Au, 199Hg(γ, γ); measured σ(E). 77Se, 79Br, 87Sr, 111,113Cd, 113,115In, 176Lu levels deduced level-width.
Hyperfine Interactions 13, 149 (1983)
F.E.Wagner
Mossbauer Spectroscopy with 191,193Ir
NUCLEAR REACTIONS 191Ir(γ, γ), E=82, 129 keV; 193Ir(γ, γ), E=73, 139 keV; compiled, reviewed Mossbauer data, techniques, source preparation procedures.
Phys.Rev. C29, 1830 (1984)
Y.Tanaka, R.M.Steffen, E.B.Shera, W.Reuter, M.V.Hoehn, J.D.Zumbro
Systematics of Ground-State Quadrupole Moments of Odd-A Deformed Nuclei Determined with Muonic M X Rays
NUCLEAR MOMENTS 151,153Eu, 159Tb, 163Dy, 167Er, 177,179Hf, 191,193Ir; measured muonic hfs, E(M X-ray), I(M X-ray); deduced ground state quadrupole moments, β2. 151,153Eu deduced large deformation change.
ATOMIC PHYSICS, Mesic-Atoms 151,153Eu, 159Tb, 163Dy, 167Er, 177,179Hf, 191,193Ir; measured muonic hfs, E(M X-ray), I(M X-ray); deduced implication on Steinheimer correction factors.
Hyperfine Interactions 35, 1023 (1987)
I.Berkes, O.El Hajjaji, M.Fahad, B.Hlimi, G.Marest, H.Sayouty, G.Langouche, M.van der Heyden, M.Tong
Nuclear Moment Determination by Mossbauer Effect Detection of Low Temperature Nuclear Orientation (NO/ME)
RADIOACTIVITY 193Os(β-); 191Pt(EC); 129Te(β-); 125I(EC); measured Mossbauer absorption spectra in daughter nuclei. 191Pt, 193Os deduced ground state μ. 125m,129Te deduced quadrupole moment. Oriented sources.
NUCLEAR REACTIONS 193Ir(γ, γ), E=73 keV; 191Ir(γ, γ), E=82.43 keV; 125Te(γ, γ), E=35.46 keV; 129I(γ, γ), E=27.77 keV; measured Mossbauer absorption spectra. Oriented sources.
At.Data Nucl.Data Tables 42, 189 (1989)
P.Raghavan
Table of Nuclear Moments
COMPILATION Z=1-99; compiled μ, electric quadrupole moments.
doi: 10.1016/0092-640X(89)90008-9
Phys.Rev. C47, 1951 (1993)
R.A.Wagoner, J.G.Mullen, G.Schupp
Accurate Mossbauer Line-Shape Measurements Including Interference in 182W, 183W, 191Ir, and 159Tb
NUCLEAR REACTIONS 182W(γ, γ), E=100.1 keV; 183W(γ, γ), E=91 keV; 159Tb(γ, γ), E=58 keV; 191Ir(γ, γ), E=129.4 keV; measured Mossbauer spectra, line shapes. 182,183W, 159Tb, 191Ir transitions deduced Mossbauer interference parameters.
Nucl.Phys. A669, 241 (2000)
E.Bezakova, A.E.Stuchbery, H.H.Bolotin, W.A.Seale, S.Kuyucak, P.Van Isacker
Electromagnetic Properties of Low-Excitation States in 191Ir and 193Ir and Supersymmetry Schemes
NUCLEAR REACTIONS 191,193Ir(58Ni, 58Ni'), E=155, 180 MeV; 191,193Ir(65Cu, 65Cu'), E=130 MeV; 191,193Ir(32S, 32S'), E=100 MeV; 191,193Ir(16O, 16O'), E=40 MeV; measured Eγ, Iγ(θ, H, T) in polarized Gd, Fe following Coulomb excitation, (recoil)γ-, (particle)γ-coin. 191,193Ir levels deduced g-factors, δ, T1/2. Thin-foil transient-field IMPAC technique, recoil-distance lifetime measurement.
NUCLEAR STRUCTURE 191,193Ir; calculated g-factors, B(M1), B(E2). Particle-triaxial-rotor model, supersymmetry models.
doi: 10.1016/S0375-9474(99)00565-5
At.Data Nucl.Data Tables 111-112, 1 (2016)
N.J.Stone
Table of nuclear electric quadrupole moments
COMPILATION Z=1-99; compiled experimental values of nuclear electric quadrupole moments.
doi: 10.1016/j.adt.2015.12.002