References quoted in the ENSDF dataset: 162ER ADOPTED LEVELS, GAMMAS
47 references found.
Clicking on a keynumber will list datasets that reference the given article.
Z.Naturforsch. 11a, 143 (1956)
W.Porschen, W.Riezler
Sehr langlebige naturliche α-Strahler
Phys.Letters 5, 359 (1963)
A.Abdumalikov, A.Abdurazakov, K.Gromov, Z.Zhelev, N.Lebedev, B.Dzhelepov, A.Kudryavtseva
New Yb162 and Tm162 Isotopes
NUCLEAR STRUCTURE 162Tm, 162Yb; measured not abstracted; deduced nuclear properties.
doi: 10.1016/S0375-9601(63)94991-0
Nucl.Phys. 44, 280 (1963)
J.Bjerregaard, B.Elbek, O.Hansen, P.Salling
Inelastic Scattering from Some Rare-Earth Isotopes of Low Abundance
NUCLEAR STRUCTURE 150Nd, 158Dy, 162Er, 156Dy, 168Yb, 174Yb, 174Hf, 176Hf; measured not abstracted; deduced nuclear properties.
doi: 10.1016/0029-5582(63)90026-9
Arkiv Fysik 29, 53 (1965)
H.Abou-Leila, N.N.Perrin, J.Valentin
Half-Lives of the First Excited States in Hf178 and Hf174
NUCLEAR STRUCTURE 178Ta, 174Ta; measured not abstracted; deduced nuclear properties.
Izv.Akad.Nauk Uz.SSR, Ser.Fiz.-Mat.Nauk No.6, 56 (1965)
A.A.Abdumalikov, A.A.Abdurazakov, V.Gnatovich, K.Y.Gromov, B.S.Dzhelepov
Investigation of Conversion Electron Spectra of the Isotopes 166Tm, 164Yb, 164Tm, and 162Tm
RADIOACTIVITY 162,164,166Tm, 164Yb; measured E(ce), I(ce). 162,164,166Er, 164Tm transitions deduced ICC, γ-multipolarity. 164Tm, 166Er deduced levels, J, π, ICC, γ-multipolarity.
Phys.Rev. 137, B790 (1965)
E.P.Haynes II, J.S.Ross
Isotope Shift in the Spectrum of Erbium I
NUCLEAR STRUCTURE 162Er; measured not abstracted; deduced nuclear properties.
Opt.i Spektroskopiya 18, 185 (1965); Opt.Spectry.(USSR) (English Transl.) 18, 105 (1965)
D.A.Volkov, A.F.Golovin
Isotopic Shift in the Erbium Spectrum
NUCLEAR STRUCTURE 162Er, 168Er, 166Er, 164Er, 170Er; measured not abstracted; deduced nuclear properties.
Czech.J.Phys. B17, 917 (1967)
J.Cajko, R.Textoris
Determination of the Intrinsic Quadrupole Moment of Er162 from a Photoelectric Measurement of the Isotopic Shifts of the Er I and Er II Lines
NUCLEAR MOMENTS 162,164,166,167,168,170Er; measured isotope shift . 162Er deduced quadrupole moment.
Nucl.Phys. A107, 385 (1968)
P.O.Tjom, B.Elbek
Collective Vibrational States in Even Erbium Nuclei
NUCLEAR REACTIONS 162,164,166,168,170Er(d, d'). E = 12.1 MeV; measured σ(Ed', θ). 162,164,166,168,170Er deduced levels J, B(E2), B(E3). Enriched targets.
doi: 10.1016/0375-9474(68)90626-X
JINR-P6-5201 (1970)
V.A.Morozov, T.M.Muminov, A.B.Khalikulov
Investigation of Half-Lives of 2+ and 4+ Levels of the Main and Rotational Band in Even-Even Nuclei of Os, Er, Dy
RADIOACTIVITY 156,158Ho, 162Tm, 164Tm, 166Tm, 184Ir; measured ceγ-delay. 156,158,160Dy, 162,164,166Er 184Os levels deduced T1/2.
Nucl.Phys. A236, 349 (1974)
F.W.N.de Boer, P.F.A.Goudsmit, B.J.Meijer, P.Koldewijn, J.Konijn, R.Beetz
The Decays of 21.55 min 162gTm and 24.3 s 162Tm (A New Isomer)
RADIOACTIVITY 162Tm, 162mTm [from 165Ho(3He, 6n), 166Er(p, 5n), 164Er(p, 3n)]; measured T1/2, Q, Eγ, Iγ, I(ce), γγ-coin, Eγ-coin. 162Er, 162Tm deduced levels, J, log ft, π, multipolarities. Ge(Li), Si(Li), NaI(Tl) detectors, enriched, natural targets.
doi: 10.1016/0375-9474(74)90260-7
Z.Phys. A273, 163 (1975)
M.Fenzl, R.M.Lieder, H.Beuscher, W.F.Davidson, A.Neskakis, H.M.Jager
Observation and Interpretation of a Side Band in the Deformed Nucleus 162Er
NUCLEAR REACTIONS 162Dy(α, 4nγ), E=48 MeV; measured Eγ, Iγ, γ(θ), γγ-coin. 162Er deduced levels, J, π.
Czech.J.Phys. 25B, 626 (1975)
H.Strusny, H.Tyrroff, E.Herrmann, G.Musiol, F.Molnar, A.A.Abdurazakov, G.Beyer, K.Y.Gromov, T.A.Islamov, M.Jachim, H.-U.Siebert, S.A.Usmanova
The Decay Chain 162Yb (19.0 min) → 162Tm (21.8 min) → 162Er and the Decay of 160Tm (9.2 min) to 160Er
RADIOACTIVITY 162Yb, 160,162Tm; measured Eγ, Iγ, γγ-, βγ-coin, I(ce); deduced Q, log ft. 162Tm, 160,162Er deduced levels, J, π.
Nucl.Phys. A256, 106 (1976)
A.Faessler, K.R.S.Devi, F.Grummer, K.W.Schmid, R.R.Hilton
Backbending: Coriolis Antipairing or Rotational Alignment (Question)
NUCLEAR STRUCTURE 162Er; calculated ground-state bands. Coriolis antipairing, rotational alignment. Hartree-Fock-Bogoliubov model, cranking model, particle number projection.
doi: 10.1016/0375-9474(76)90097-X
Nucl.Phys. A270, 300 (1976)
R.L.West, E.G.Funk, A.Visvanathan, J.P.Adams, J.W.Mihelich
(α, 2nγ) Studies of γ-Vibrational and Other Side-Bands in 162,164,166Er
NUCLEAR REACTIONS 160,162,164Dy(α, 2nγ), E=24 MeV; measured Eγ, Iγ, γγ-coin, γ(θ). 162,164,166Er deduced levels, K, J, π, δ, quadrupole moment. Enriched targets.
doi: 10.1016/0375-9474(76)90449-8
Z.Phys. A277, 113 (1976)
D.R.Zolnowski, H.Beuscher, T.T.Sugihara
High-Spin Negative Parity Band in 162Er
NUCLEAR REACTIONS 161Dy(α, 3nγ), E=40 MeV; measured I(ce), Eγ, Iγ. 162Er levels deduced K, ICC.
Nucl.Phys. A283, 493 (1977)
R.Janssens, Y.El Masri, J.M.Ferte, C.Michel, J.Steyaert, J.Vervier
Energy Levels of 162Er Through the 165Ho(p, 4nγ)162Er Reaction
NUCLEAR REACTIONS 165Ho(p, 4nγ), E=30-51 MeV; measured σ(E, Eγ, θ(γ)), γγ-coin. 162Er deduced levels, spins, branching ratios, B(E2). 165Ho(p, 2n)(p, 3n), (p, 4n), (p, 5n), E=30-51 MeV; 165Ho(p, 6n), E=51 MeV; measured absolute σ. Natural target.
doi: 10.1016/0375-9474(77)90554-1
Phys.Rev. C16, 2218 (1977)
R.M.Ronningen, R.B.Piercey, J.H.Hamilton, C.F.Maguire, A.V.Ramayya, H.Kawakami, B.van Nooijen, R.S.Grantham, W.K.Dagenhart, L.L.Riedinger
Coulomb Excitation Measurements of Reduced E2 and E4 Transition Matrix Elements in 156,158Dy, 162,164Er, and 168Yb
NUCLEAR REACTIONS 156,158Dy, 162,164Er, 168Yb(α, α'), E=12-13 MeV; measured Coulomb excitation σ(E). 156,158Dy, 162,164Er, 168Yb deduced β2, β4. Enriched targets.
Phys.Rev. C23, 240 (1981)
T.J.Humanic, J.X.Saladin, J.G.Alessi, A.Hussein
Experimental Determination of the Intrinsic Ground State Shapes of 162Er and 164Er from Coulomb Excitation Studies
NUCLEAR REACTIONS 162,164Er(α, α'), E=12 MeV; 162,164Er(16O, 16O'), E=48 MeV; measured αγ-, 16Oγ-coin, Coulomb excitation. 162,164Er level deduced sign of quadrupole moment, intrinsic shape. Enriched metal target. Semiclassical coupled-channel analysis.
Phys.Rev. C26, 97 (1982)
R.M.Ronningen, R.S.Grantham, J.H.Hamilton, R.B.Piercey, A.V.Ramayya, B.van Nooijen, H.Kawakami, W.Lourens, R.S.Lee, W.K.Dagenhart, L.L.Riedinger
Reduced Transition Probabilities of Vibrational States in 156,158Dy, 162,164Er, and 168Yb
NUCLEAR REACTIONS 156,158Dy, 162,164Er, 168Yb(α, α'), E=12-16 MeV; measured σ. 156,158Dy, 162,164Er, 168Yb levels deduced B(λ). Enriched targets.
Phys.Rev. C27, 550 (1983)
T.J.Humanic, J.X.Saladin, J.G.Alessi, A.Hussein
Electromagnetic Properties of Excited States in the Even-Even Erbium Isotopes from Coulomb Excitation Studies
NUCLEAR REACTIONS 162,164,166,168,170Er(α, α'γ), E=12.5 MeV; 162,164,166,168,170Er(16O, 16O'γ), E=48 MeV; measured γα-, γ(16O)-coin, Eγ, Iγ, Coulomb excitation. 168Er(16O, 16O'), E=48 MeV; measured σ(E(16O')). 162,164,166,168,170Er levels deduced γ-branching, quadrupole moment. Coupled-channels model, quantum mechanical, semi-classical analyses.
Nucl.Phys. A394, 39 (1983)
J.Janecke, E.H.L.Aarts, A.G.Drentje, M.N.Harakeh, C.Gaarde
Isobaric Analog States in Rare-Earth Nuclei Studied with the (3He, t) Charge Exchange Reaction at θ(L) = 0°
NUCLEAR REACTIONS 152,154,156,158,160Gd, 160,162Dy, 162,164,166,168,170Er, 170,172,174,176Yb, 176,178,180Hf(3He, t), E=60.5 MeV; measured σ(E(t), θ=0°). 152,154,156,158,160Tb, 160,162Ho, 162,164,166,168,170Tm, 170,172,174,176Lu, 176,178,180Ta deduced IAS, Γ, Coulomb displacement energies. Enriched targets, magnetic spectrometer.
doi: 10.1016/0375-9474(83)90160-4
Z.Phys. A322, 1 (1985)
A.Bernard, H.Bruggemeyer, V.Pfeufer
Changes in Mean-Square Nuclear Charge Radii in Er from Optical Isotope Shifts by Laser-Atomic Beam Spectroscopy
NUCLEAR MOMENTS 164,166,168,170,172,162Er; measured isotope shifts. 167Er deduced magnetic dipole, electric quadrupole constants. 162,164,166,167,168,170Er deduced rms charge radii relative changes.
Hyperfine Interactions 24, 159 (1985)
R.Neugart
Collinear Laser Spectroscopy on Unstable Isotopes - A Tool of Nuclear Physics
RADIOACTIVITY 151Dy(EC), (β+), (α); 208,222Ra(α); 232Ra [from 238Ra(p, X), E=600 MeV]; measured hfs. Collinear laser spectroscopy.
NUCLEAR MOMENTS 158,160,162,164,166,168,170,172,174,176Yb, 152,156,158,160,162,164,166,168,170Er, 148,150,152,154,156,158,160,162,164Dy, 136,138,140,142,144,146Ba; measured isotope shifts; deduced rms charge radii. Collinear laser spectroscopy.
Phys.Rev. A33, 1469 (1986)
W.J.Childs, L.S.Goodman, K.T.Cheng
Hyperfine Structure of Excited 4f115d 6s2 Levels in 167Er I: Measurements and multiconfiguration Dirac-Fock calculations
NUCLEAR MOMENTS 167Er; measured hfs; deduced hfs constants. 162,164,166,167,168,170Er; measured optical hfs. Laser-rf double resonance technique. Multi-configuration Dirac-Fock calculations.
Hyperfine Interactions 34, 17 (1987)
S.A.Ahmad, P.M.Rao, A.Venugopalan, G.D.Saksena
Evaluation of Changes in Mean-Square Nuclear Charge Radii of Stable Isotopes of Erbium
NUCLEAR MOMENTS 162,164,166,168,170Er; measured optical isotope shifts; deduced rms charge radii.
Program and Theses, Proc.37th Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, Yurmala, p.113 (1987)
M.A.Baratova, K.Ya.Gromov, T.A.Islamov, G.A.Kononenko, V.M.Tsupko-Sitnikov
Gamma-Ray Multipolarity Determination in La, Gd, Tb, Dy, Ho, Er, Tm and Yb on the Basis of Modified Technique of Beta-Spectrograph Processing
RADIOACTIVITY 133,135Ce, 149,151Tb, 153,155Dy, 155Ho, 161Er, 161,163,165Tm, 167Yb, 167,169,171Lu(EC), (β+); 159,161Ho, 167Tm, 169Yb(EC); 160mHo(IT); measured I(ce), Iγ. 133,135La, 149,151Gd, 153,155Tb, 155,159,161Dy, 160,161Ho, 161,163,165,167Er, 167,169Tm, 167,169,171Yb transitions deduced ICC, δ. Magnetic β-spectrographs.
Phys.Rev. C35, 1574 (1987)
H.Okamura, S.Matsuki
Isotope Shift in Erbium I by Laser-Atomic-Beam Spectroscopy
NUCLEAR MOMENTS 162,164,166,167,168,170Er; measured optical isotope shift; deduced field shift, hfs constants. 162,164,166,167,168,170Er deduced relative rms charge radii changes. Laser atomic beam spectroscopy, natural Er target.
Phys.Rev. C37, 1667 (1988)
B.Al-Bataina, J.Janecke
Reduced Alpha Widths for Nuclei with N ≥ 84, Z ≤ 84
NUCLEAR STRUCTURE Z=60-84; analyzed α-decay width data. 142Ce, 149Sm, 156Dy, 162,164Er, 168Yb, 176,174Hf, 180W, 184,186,188Os, 192Pt, 196Hg, 204Pb; calculated α-decay T1/2.
Proc.of the Conf. on High-Spin Nuclear Structure and Novel Nuclear Shapes, April 13-15, 1988, Argonne National Laboratory, Argonne, Illinois; ANL-PHY-88-2, p.275 (1988)
K.Sugawara-Tanabe, K.Tanabe
Microscopic Calculation of G-Factors, Backbending and Isotope Shift in Er Isotopes from A = 158 to 170
NUCLEAR STRUCTURE 158,160,162,164,166,168,170Er; calculated levels, g, isotope shift, rms radii changes. Cranked HFB.
Phys.Scr. 39, 50 (1989)
J.B.Gupta, S.Sharma
Interband B(E2) Ratios in the Rigid Triaxial Model, a Review
NUCLEAR STRUCTURE 146,148,150Nd, 148,150,152,154,156Sm, 150,152,154,156,158,160Gd, 154,156,158,160,162,164Dy, 156,158,160,164,166,168,170Er, 158,164,166,168,170,172,174,176,178Yb, 166,168,170,172,174,176,178,180Hf, 170Er, 178,180,182,184,186W, 178,180,182,184,186,188,190,192,194Os, 180,182,184,186,188,190,192,194,196Pt; analyzed B(E2); deduced asymmetry parameter (γ0). Rigid triaxial model.
J.Phys.(London) G16, L67 (1990)
M.A.Riley, J.W.Roberts, J.Simpson, A.Alderson, I.Ali, M.A.Bentley, A.M.Bruce, R.Chapman, D.M.Cullen, P.Fallon, P.D.Forsyth, J.C.Lisle, J.N.Mo, J.F.Sharpey-Schafer
The Spectroscopy of 161,162Er at Spins up to 50(h-bar) in the Unpaired Regime
NUCLEAR REACTIONS 130Te(36S, 5n), (36S, 4n), E=170 MeV; measured γγ-coin. 161,162Er deduced levels, J, π, band structure.
doi: 10.1088/0954-3899/16/3/006
Nucl.Phys. A520, 279c (1990)
M.A.Riley, J.W.Roberts, J.Simpson, A.Alderson, I.Ali, D.M.Cullen, P.Fallon, P.D.Forsyth, J.F.Sharpey-Schafer, M.A.Bentley, A.M.Bruce, R.Chapman, J.C.Lisle, J.N.Mo
The Unpaired Spectroscopy of 161,162Er at Spins up to 50(h-bar)
NUCLEAR REACTIONS 130Te(36S, 4n), (36S, 5n), E=170 MeV; measured γγ-coin, sum spectra. 161,162Er deduced levels, J, π, band structure.
doi: 10.1016/0375-9474(90)91153-I
Phys.Rev.Lett. 73, 1899 (1994)
D.G.Burke
Hexadecapole-Phonon Versus Double-γ-Phonon Interpretation for K(π) = 4+ Bands in Deformed Even-Even Nuclei
NUCLEAR REACTIONS 153Eu(3He, d), E=24 MeV; measured deuteron spectra. 154Gd deduced Kπ=4+ bands configuration characteristics, resolution of conflict with other data interpretation.
doi: 10.1103/PhysRevLett.73.1899
Phys.Lett. 471B, 1 (1999)
V.E.Ceron, J.G.Hirsch
Double Electron Capture in 156Dy, 162Er and 168Yb
RADIOACTIVITY 156Dy, 162Er, 168Yb(2EC); calculated 2ν accompanied two-ec-decay T1/2. Pseudo SU(3) model.
doi: 10.1016/S0370-2693(99)01317-9
Phys.Rev. C62, 024321 (2000)
J.Simpson, A.P.Bagshaw, A.Pipidis, M.A.Riley, M.A.Bentley, D.M.Cullen, P.J.Dagnall, G.B.Hagemann, S.L.King, R.W.Laird, J.C.Lisle, S.Shepherd, A.G.Smith, S.Tormanen, A.V.Afanasjev, I.Ragnarsson
Discrete Line γ-Ray Spectroscopy in the (50-60) (h-bar) Spin Domain of 161, 162Er
NUCLEAR REACTIONS 130Te(36S, 4n), (36S, 5n), E=170 MeV; measured Eγ, Iγ, γγ-coin. 161,162Er deduced high-spin levels, J, π, configurations, unpaired band crossings. Euroball array, cranked mean-field calculations.
doi: 10.1103/PhysRevC.62.024321
Phys.Rev. C66, 014307 (2002)
M.A.Caprio, R.F.Casten, N.V.Zamfir, G.C.Ball, K.P.Jackson, P.-A.Amaudruz, J.-C.Thomas
Properties of the Low-Lying Kπ = 0+ Excitations in 162Er
RADIOACTIVITY 162Yb, 162Tm(β+), (EC) [from Ta(p, X)162Yb and subsequent decay]; measured Eγ, Iγ, γγ-coin. 162Er deduced levels J, π, B(E2), β-vibrational collective structure.
doi: 10.1103/PhysRevC.66.014307
Czech.J.Phys. 52, 513 (2002)
J.G.Hirsch, O.Castanos, P.O.Hess, V.E.Ceron, O.Civitarese
Double-Beta Decay in Deformed Nuclei
RADIOACTIVITY 146,148,150Nd, 160Gd, 186W, 192Os, 238U(2β-); 156Dy, 162Er, 168Yb(2EC); calculated 0ν- and 2ν-accompanied 2β-decay T1/2. Pseudo-SU(3) model, deformed nuclei.
Eur.Phys.J. A 16, 177 (2003)
M.A.Caprio, N.V.Zamfir, E.A.McCutchan, R.F.Casten, Z.Berant, H.Amro, C.J.Barton, C.W.Beausang, D.S.Brenner, J.R.Cooper, R.L.Gill, G.Gurdal, A.A.Hecht, C.Hutter, R.Krucken, D.A.Meyer, J.R.Novak, N.Pietralla, P.H.Regan, J.J.Ressler
Measurement of 2+1 level lifetimes in 162Yb and 162Er by fast electronic scintillation timing
RADIOACTIVITY 162Lu(β+), (EC) [from 147Sm(19F, 4n)]; 162Tm(β+), (EC) [from 155Gd(12C, 5n), and subsequent decay]; measured Eγ, Iγ(t), γγ-, βγ-coin. 162Yb, 162Er levels deduced T1/2. Fast electronic scintillation timing, comparison with previous results.
doi: 10.1140/epja/i2002-10086-8
Phys.Rev. C 70, 052501 (2004)
Z.Sujkowski, S.Wycech
Neutrinoless double electron capture: A tool to search for Majorana neutrinos
RADIOACTIVITY 112Sn, 136Ce, 152Gd, 162,164Er, 180W(2EC); calculated neutrinoless double electron capture rates. Experimental feasibility discussed.
doi: 10.1103/PhysRevC.70.052501
Phys.Rev. C 69, 024614 (2004)
C.Xu, Z.Ren
α decay of nuclei in extreme cases
RADIOACTIVITY 145Nd, 149Sm, 156Dy, 162Er, 178Yb, 176,178Hf, 180,182W, 161,162,162mRe, 188Os, 166,167,192Pt, 172Au, 174,196Hg, 177,177m,180Tl, 180Pb, 185Bi, 188,189,190Po, 261,263,265,266Sg, 264,266,267Bh, 264,265,266,267,269Hs, 268Mt, 269,270,271,273,281Ds, 272Rg, 277,284,285Cn, 287,288,289Fl, 290,292Lv, 294Og(α); calculated α-decay T1/2. Cluster model, comparisons with data.
doi: 10.1103/PhysRevC.69.024614
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
Phys.Rev. C 85, 024313 (2012)
T.P.D.Swan, P.M.Walker, Zs.Podolyak, M.W.Reed, G.D.Dracoulis, G.J.Lane, T.Kibedi, M.L.Smith
Discovery of isomers in dysprosium, holmium, and erbium isotopes with N=94 to 97
NUCLEAR REACTIONS 160Gd(9Be, X)161Dy/163Ho/162Er/165Er, E=57 MeV; measured Eγ, Iγ, γγ-coin, delayed γ, γγ(t), half-lives. 161Dy, 163Ho, 162,165Er; deduced levels, J, π, isomers, B(E2), B(M1), B(E1), intrinsic g factors, rotational bands, configurations, angular momentum alignment, reduced hindrance factors. Coriolis and octupole band mixing. Comparison with BCS calculations.
doi: 10.1103/PhysRevC.85.024313
At.Data Nucl.Data Tables 99, 69 (2013)
I.Angeli, K.P.Marinova
Table of experimental nuclear ground state charge radii: An update
COMPILATION Z=0-96; compiled nuclear radii, rms nuclear charge radii.
doi: 10.1016/j.adt.2011.12.006
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
Phys.Rev. C 102, 044310 (2020)
L.Knafla, G.Hafner, J.Jolie, J.-M.Regis, V.Karayonchev, A.Blazhev, A.Esmaylzadeh, C.Fransen, A.Goldkuhle, S.Herb, C.Muller-Gatermann, N.Warr, K.O.Zell
Lifetime measurements of 162Er: Evolution of collectivity in the rare-earth region
NUCLEAR REACTIONS 154Sm(12C, 4n)162Er, E=62 MeV; measured Eγ, Iγ, γγ-coin, half-life of 7(-) isomer by γ(t), level half-lives by γγ(t) fast-timing technique using the HORUS spectrometer with eight HPGe detectors and eight LaBr3(Ce) scintillation detectors at the 10 MV FN-Tandem accelerator of the University of Cologne. 162Er; deduced levels, J, π, B(E2). Comparison with confined β soft model and the interacting boson model calculations. Systematics of B(E2) values transition quadrupole moments and β2 deformation parameters for 158,160,162,164,166,168,170Er.
doi: 10.1103/PhysRevC.102.044310
Chin.Phys.C 45, 030003 (2021)
M.Wang, W.J.Huang, F.G.Kondev, G.Audi, S.Naimi
The AME 2020 atomic mass evaluation (II). Tables, graphs and references
ATOMIC MASSES A=1-295; compiled, evaluated atomic masses, mass excess, β-, ββ and ββββ-decay, binding, neutron and proton separation energies, decay and reaction Q-value data.