References quoted in the ENSDF dataset: 191IR 191OS B- DECAY (14.99 D)
49 references found.
Clicking on a keynumber will list datasets that reference the given article.
Phys.Rev. 74, 264 (1948)
L.I.Katzin, M.Pobereskin
The Isotopes Os185 and Os193
Phys.Rev. 74, 1264A (1948)
D.Saxon
The Beta Spectra of W185 and Os193
Phys.Rev. 79, 610 (1950)
M.E.Bunker, R.Canada, A.C.G.Mitchell
Radiations from Os185, Os191 and Os193
Phys.Rev. 79, 582 (1950)
T.C.Chu
New Radioactive Isotopes of Iridium
Arkiv Fysik 3, 47 (1951)
E.Kondaiah
Disintegration of the 15-Day Osmium
Arkiv Fysik 3, 533 (1952)
S.A.E.Johansson
The Use of Scintillation Counters in the Measurement of the Energy of X-Rays and Low Energy Gamma-Rays
Phys.Rev. 88, 831 (1952)
J.B.Swan, R.D.Hill
Radioisotopes of Osmium
Phys.Rev. 89, 323 (1953)
R.D.Hill, J.W.Mihelich
The Probable Existence of an E3 + M4 Mixture in an Isomeric Transition
Phil.Mag. 45, 31 (1954)
F.D.S.Butement, A.J.Poe
Radioactivity of Neutron Excess Iridium Isotopes
Phys.Rev. 93, 163 (1954)
F.K.McGowan
Measurement of K-Shell Internal Conversion Coefficients with a Coincidence Scintillation Spectrometer
Phys.Rev. 96, 1452 (1954)
R.A.Naumann, J.B.Gebhart
5.6-Second Ir191m Following Os191 Decay
Phys.Rev. 98, 1185A (1955)
J.W.Mihelich, M.Goldhaber
Evidence for a Mixed M3 + E4 Isomeric Transition
J.Inorg.Nucl.Chem. 3, 233 (1956)
E.C.Campbell, F.Nelson
Rapid Ion-Exchange Techniques for Radiochemical Separations
doi: 10.1016/0022-1902(56)80024-9
Can.J.Phys. 36, 1253 (1958)
J.A.R.Cloutier, A.Henrikson
Study of Ir191m
doi: 10.1139/p58-129
Phys.Rev. 111, 920 (1958); Erratum Phys.Rev. 112, 2139 (1958)
V.S.Dubey, S.S.Malik, C.E.Mandeville, A.Mukerji
Radiations of Osmium-193 and Osmium-191
Nuovo Cimento 9, 600 (1958)
M.C.Joshi, B.N.Subba Rao, B.V.Thosar
M1 Transitions in 141Pr and 191Ir
Can.J.Phys. 36, 1409 (1958)
S.V.Nablo, M.W.Johns, A.Artna, R.H.Goodman
The Decay of Os191 and Os193
doi: 10.1139/p58-141
Ann.Phys.(Paris) 5, 181 (1960)
L.Feuvrais
Les Noyaux de Nombre de Masse A et de Nombre de Charge Z Impairs de la Region Ou A Est Voisin de 190
NUCLEAR STRUCTURE 197Hg, 191Os, 193Os; measured not abstracted; deduced nuclear properties.
Zhur.Eksptl.i Teoret.Fiz. 43, 1625 (1962); Soviet Phys.JETP 16, 1144 (1963)
E.E.Berlovich, Y.K.Gusev, V.V.Ilin, M.K.Nikitin
Lifetimes of the Excited States of Deformed Dy-160, Lu-175, Hf-177, and Ir-191 Nuclei
NUCLEAR STRUCTURE 191Os, 160Ho, 175Yb, 177Lu; measured not abstracted; deduced nuclear properties.
Z.Physik 170, 347 (1962)
J.Lindskog, T.Sundstrom, P.Sparrman
Delayed Coincidence Measurement of the Lifetime of the 129-keV Level In Ir191
NUCLEAR STRUCTURE 191Pt; measured not abstracted; deduced nuclear properties.
Czech.J.Phys. 13, 23 (1963)
Z.Plajner, L.Maly, N.Eissa, A.Benadek
Decay of Os191 and Os191m
NUCLEAR STRUCTURE 191Os; measured not abstracted; deduced nuclear properties.
Phys. Letters 10, 24 (1964); Erratum Phys.Letters 10, 291(1964)
J.A.Cameron, I.A.Campbell, J.P.Compton, R.A.G.Lines
Nuclear Orientation of Ir191m in Iron
NUCLEAR STRUCTURE 191Ir, 191Os, 193Os; measured not abstracted; deduced nuclear properties.
doi: 10.1016/0031-9163(64)90553-0
Nucl.Phys. 53, 497 (1964)
B.I.Deutch, P.Hornshoj
The Measurement of the L Shell Particle Parameters in the 42 keV E3 Transitions of Ir191
NUCLEAR STRUCTURE 191Os; measured not abstracted; deduced nuclear properties.
doi: 10.1016/0029-5582(64)90629-7
Z.Physik 183, 90 (1965)
D.Lange
Untersuchung des Iridium-191m-Zerfalls
NUCLEAR STRUCTURE 191Os; measured not abstracted; deduced nuclear properties.
Izv.Akad.Nauk SSSR, Ser.Fiz. 30, 1193 (1966); Bull.Acad.Sci.USSR, Phys.Ser. 30, 1244 (1967)
E.P.Mazets, Y.V.Sergeenkov
Multiple Orders of the Radiative Transitions Evinced in Decay of Os191 And Os191m
NUCLEAR STRUCTURE 193Os, 191Os; measured not abstracted; deduced nuclear properties.
Proc.Phys.Soc.(London) 87, 455 (1966)
B.V.N.Rao, S.Jnanananda
Lifetimes of Excited States in 155Gd and 191Ir
NUCLEAR STRUCTURE 191Os, 155Eu; measured not abstracted; deduced nuclear properties.
doi: 10.1088/0370-1328/87/2/315
Nuovo Cimento 52B, 220 (1967)
G.P.Agin, G.E.Clark, C.E.Mandeville, V.R.Potnis
The Harder Gamma-Rays of 191Os
NUCLEAR STRUCTURE 191Os; measured not abstracted; deduced nuclear properties.
Czech.J.Phys. 17B, 703 (1967)
Z.Plajner, V.Brabec, O.Dragoun, L.Maly
Conversion Electrons in the Decay of 191Os
NUCLEAR STRUCTURE 191Os; measured not abstracted; deduced nuclear properties.
Arkiv Fysik 39, 411 (1969)
S.G.Malmskog, A.Backlin
The Decay of 191Os
RADIOACTIVITY 191Os[from 190Os(n, γ)]; measured Eγ, Iγ, I(ce), cece-delay. 191Ir deduced levels, T1/2, γ-mixing, γ-branching.
Fizika 2, 109 (1970)
J.Milanovic, R.Stepic, D.Krpic
M/L and (N + O + ...)/M Conversion Ratios for M1 + E2 Transitions
RADIOACTIVITY 153Eu, 165Ho, 169Tm, 191Ir, 212Bi; measured M/L, (N+O+...)/M ratios for M1+E2 transitions.
Nucl.Instrum.Methods 87, 7 (1970)
D.E.Raeside
Gamma Ray Energies in the Energy Interval between 45 and 1275 keV
RADIOACTIVITY 109Cd, 152,154,155,156Eu, 153Sm, 170Tm, 191,193Os; measured Eγ.
Rev.Roum.Phys. 16, 153 (1971)
A.Gelberg, I.Piticu
Gamma X-Ray Angular Correlation
RADIOACTIVITY 191Os; measured Xγ(θ).
Nucl.Phys. A171, 425 (1971)
Z.Plajner, O.Dragoun, B.Martin, R.Schule
Internal Conversion Investigations on the 42 keV E3 Transition in 191Ir
RADIOACTIVITY 191Os[from 190Os(n, γ)]; measured I(ce), Eγ. 191Ir deduced ICC ratio, γ-mixing(M4/E3). Natural target.
doi: 10.1016/0375-9474(71)90032-7
Nucl.Phys. A181, 207 (1972)
D.S.Brenner, M.L.Perlman
Subshell Conversion-Line Intensity Ratios for Some Pure Transitions
RADIOACTIVITY 103Rh, 107Ag, 109Ag, 125Te, 160Dy, 166Ho, 191Ir, 197Hg; measured I(ce); deduced L-subshell ratios for M1, M4, E3 transitions, M-subshell ratios for E2, E3 transitions, γ-mixing(E2/M1). Enriched targets.
doi: 10.1016/0375-9474(72)90913-X
Table of Isotopes, 7th Ed., John Wiley and Sons, Inc., New York (1978)
C.M.Lederer, V.S.Shirley, E.Browne, J.M.Dairiki, R.E.Doebler, A.A.Shihab-Eldin, L.J.Jardine, J.K.Tuli, A.B.Buyrn
COMPILATION A=1-263; compiled, evaluated structure data.
Phys.Rev.Lett. 42, 354 (1979)
J.L.Gimlett, H.E.Henrikson, N.K.Cheung, F.Boehm
Observation of a Time-Reversal-Like Phase Shift between Competing Multipoles in a Nuclear Gamma Transition
RADIOACTIVITY 191mIr [from β- decay of 191Os, polarized in Fe host]; measured linear polarization of γ for 5/2+→3/2+ transition; deduced imaginary phase in E2-M1 δ. Comparion of time-reversal-like phase with calculated atomic final-state phase.
doi: 10.1103/PhysRevLett.42.354
Phys.Rev. C24, 620 (1981)
J.L.Gimlett, H.E.Henrikson, N.K.Cheung, F.Boehm
Atomic Final State Effects and a Limit for Time-Reversal Invariance in 191Ir
RADIOACTIVITY 191Os [from 190Os(n, γ)]; measured γ(θ), linear polarization vs θ, T, oriented nuclei; deduced time reversal invariance limit, atomic final state effects. 191Ir transition deduced E2, M1 relative phase.
Nucl.Instrum.Methods 219, 519 (1984)
K.Elsener, V.Konig, W.Gruebler, J.Eberl
Absolute Calibration of a Compton Polarimeter for 110 keV γ-Rays
RADIOACTIVITY 191Os(β-); measured γ CP, anisotropy vs temperature; deduced Compton polarimeter analyzing power for 191Ir transition. Compton polarimeter absolute calibration.
NUCLEAR REACTIONS 22Ne(polarized p, α), E not given; measured γ CP. 19F deduced parity violation transition analyzing power. Compton polarimeter, absolute calibration.
Nucl.Instrum.Methods 221, 419 (1984)
N.Sakai, O.Terashima, H.Sekizawa
Magnetic Compton Profile Measurement using Circularly Polarized Gamma-Rays from Oriented 191mIr Nuclei
RADIOACTIVITY 191Os(β-) [from neutron irradiation of 190Os]; measured Eγ, Iγ, E(X-ray), I(X-ray). 191mIr(IT) [from 191Os(β--decay)]; measured γ CP, oriented nuclei; deduced magnetic electron Compton profile in ferromagnetic Fe.
Nuovo Cim. 91A, 277 (1986)
S.Bhuloka Reddy, K.L.Narasimham, B.V.Thirumala Rao, V.Lakshminarayana
Conversion of the 42 keV Transition in the Decay of 191Os
RADIOACTIVITY 191Os(β-); measured Eγ, Iγ, E X-ray, I(X-ray). 191Ir transition deduced total, subshell ICC.
Table of Radioactive Isotopes, John Wiley and Sons, Inc., New York (1986)
E.Browne, R.B.Firestone, V.S.Shirley
COMPILATION A=1-266; compiled, evaluated structure data.
Program and Thesis, Proc.39th Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, Tashkent, p.121 (1989)
R.B.Begzhanov, R.D.Magrupov, M.G.Sattarov, Sh.A.Mirakhmedov, M.I.Meliev
Measurement of L X-Ray Intensities in 191Os Decay
RADIOACTIVITY 191Os(β-); measured I(L X-ray). Si-Li detector.
J.Phys.(London) B26, 1263 (1993)
M.I.Marques, M.C.Martins, F.Parente, J.G.Ferreira
L1 Fluorescence Yield of Yb and Ir
RADIOACTIVITY 170Tm(β-), (EC); 191Os(β-); measured L X-ray-, K X-ray-, γ-spectra; deduced L1 fluorescence yield in Yb, Ir.
doi: 10.1088/0953-4075/26/7/010
Nucl.Data Sheets 74, 611 (1995)
E.Browne, S.Y.Chu
Nuclear Data Sheets Update for A = 191
COMPILATION 191Re, 191Os, 191Ir, 191Pt, 191Au, 191Hg, 191Tl, 191Pb, 191Bi, 191Po; compiled, analyzed structure data.
Program and Thesis, Proc.45th Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, St.Petersburg, p.105 (1995)
V.V.Bulgakov, A.B.Kaznovetsky, S.A.Kovalenko, V.T.Kupryashkin, A.P.Lashko, A.A.Odintsov, B.V.Ostapenko, A.I.Feoktistov
γ-Ray Energies from the 191Pt Decay
RADIOACTIVITY 191Pt(EC); measured Eγ. 191Ir deduced levels. Hyperpure Ge detector. High precision.
Nucl.Instrum.Methods Phys.Res. A369, 527 (1996)
E.Schonfeld, H.Janssen
Evaluation of Atomic Shell Data
ATOMIC PHYSICS Z=10-100; analyzed data, model calculations; deduced K-shell fluorescence yield, X-ray emission probability, vacancy transfer coefficient.
doi: 10.1016/S0168-9002(96)80044-1
Appl.Radiat.Isot. 56, 65 (2002)
J.C.Hardy, V.E.Iacob, M.Sanchez-Vega, R.T.Effinger, P.Lipnik, V.E.Mayes, D.K.Willis, R.G.Helmer
Precise Efficiency Calibration of an HPGe Detector: Source Measurements and Monte Carlo Calculations with Sub-percent Precision
doi: 10.1016/S0969-8043(01)00168-3
Phys.Rev. C 71, 054320 (2005)
N.Nica, J.C.Hardy, V.E.Iacob, J.R.Montague, M.B.Trzhaskovskaya
Precise measurement of K-shell fluorescence yield in iridium: An improved test of internal-conversion theory
RADIOACTIVITY 191Os(β-) [from 190Os(n, γ)]; measured Eγ, Iγ, X-ray spectra. 191Ir transition deduced ICC, fluorescence yield. Comparison with model predictions, 193mIr decay data. Need for K-shell hole to be included in calculations discussed.
doi: 10.1103/PhysRevC.71.054320
Nucl.Instrum.Methods Phys.Res. A589, 202 (2008)
T.Kibedi, T.W.Burrows, M.B.Trzhaskovskaya, P.M.Davidson, C.W.Nestor, Jr.
Evaluation of theoretical conversion coefficients using BrIcc
COMPILATION Z=5-110; compiled and evaluated ICC data. BrICC database.
doi: 10.1016/j.nima.2008.02.051