Other reactions:

⁶³Cu(n,α) E=20 MeV, calculated σ (2011Pa03).

⁶³Cu(n,α) E=14.9 MeV, Measured σ (2007Zh34).

⁶³Cu(n,α) E=9, 11 MeV. Measured angle-integrated cross section. Model calculations. Inferred level density parameters (1987Ah01). Theoretical interpretation of the total (n,α) cross section below 20 MeV.

⁶⁰Ni(n,p) E<20 MeV, Calculated σ (2011Pa01).

⁶⁰Ni(n,p) E=100 MeV/nucleon, calculated Gamow-Teller strengths (2012Co16).

⁶⁰Ni(n,p) E=14 MeV, measured σ (2011Zh04).

⁶⁰Ni(n,p), measured fission spectrum, deduced σ (2010El02).

⁶⁰Ni(n,p) E<20 MeV, calculated excitation function (2009La04).

⁶⁰Ni(n,p) E=0-20 MeV, calculated σ (2004Fa02).

⁵⁹Co(n,γ) E=thermal (2012Sh06).

⁵⁹Co(n,γ), deduced yields (2010Kr02).

⁵⁹Co(n,γ) E=1 GeV, deduced yields (2010Kr06).

⁵⁹Co(n,γ), measured Eγ, Iγ, deduced σ (2010Le01).

⁵⁹Co(n,γ), measured Eγ, Iγ, deduced reaction rates (2009Ti09).

⁵⁹Co(n,γ) E<20 MeV, calculated σ (2009Zh02).

⁵⁹Co(n,γ) E<25 keV, measured σ (2008He01).

⁵⁹Co(n,γ), deduced γ-ray emission probabilities (2004Ma76).

⁵⁹Co(d,pγ) E=3-40 MeV, Measured Eγ, Iγ (2011Di16).

⁵⁹Co(d,p) E=7.5 MeV, (2009Vo02).

⁵⁹Co(d,p) E=7.5-10 MeV, measured σ (2007Vo08).

Zn(p,X) E=31-141 MeV, measured σ (2005Bo10).

Ge(p,X) E=100 MeV, measured σ (2010Ba16).

Zn(p,X) E=26-67 MeV, measured σ (2005Ta01).

Ni(p,X) E=140-500 MeV, measured σ (2006Si27).

Ni(p,X) E=46-2605 MeV, deduced σ (2011Ti04).

⁷⁶Ge(n,X) E=10-2000 MeV, calculated σ (2010El09).

Ge, Mo, Te(p,X) E=0.8, 1.85 GeV, measured σ (2005No04).

Ni, Cu(n,X) E=0.1-750 MeV, measured σ (2005Si32).

Ni(d.x) E<50 MeV, measured σ activation (2007Ta14).

Cu(d,X) E=3-50 MeV, measured excitation functions (2006Ta21).

⁵⁸Fe(⁶Li,X), ⁵⁷Fe(⁷Li,X) E=15 MeV, deduced level densities (2009Og06).

Cu(⁷Li,X) E=35 MeV, measured σ (2004De41).

⁶⁰Ni(¹³C,¹³N) E=100 MeV/nucleon, measured σ (2003Is17,2002Ic01).

⁶⁰Co(ν,ν’) E=0-50 MeV, calculated inelastic σ (2005Ju02)

Protons (E=43-2605 MeV) on W and ¹⁸¹Ta. Measured σ (2011Ti05).

Others: 2004Fe04, 2004Se01, 2003Ya20.

Nuclear Structure

Calculated level densities (2006Hi10,2005Na24,2002Be89).

Analyzed level densities (2006Su20).

Calculated single-particle level energies (2002Be59)

Nuclear level density (2011Hi13,2007Al51).

Strength functions of dipole γ rays (2008Su11)

Nuclear level density below the binding energy (2010Su17).

Analyzed neutron pairing interaction (2007Fr23).

Others: 2007Li49, 2007Li42, 2007Na31, 2005Su21, 2004Ho08, 2003Zh30.

Radioactive decay

Analyzed measured half-lives (2012Fi12)

Experimental nuclear data of medical isotopes (2012Ja04)

Discovery of Co isotopes (2010Sz02)

Compilations

⁵⁹Co(n,γ) E=thermal, measured prompt Eγ, Iγ (2002Re13).

⁶⁰Co evaluated half-life, calculated average γ-ray energy (2011Ch51).

⁶⁰Co compiled half-life values (2004Wo02).

Levels: For properties of many resonances in the range E(n)=0-120 keV from ⁵⁹Co(n,γ), see 1981MuZQ.

Levels: Configurations given for the 6⁺ and 7⁺ levels are from the reaction ⁶²Ni(pol d,α).

Levels: T_1/2(g.s.):

Levels: 1925.28 d 14 (5.2712 y 4) from weighted average of the following values (values reported in years have been converted to days, 365.242 days/year): 1922.3 d 11 (1963Go03), 1914.6 d 29 (1965An07), 1924.8 d 24 (1968La10), 1914 d 77 (1973Ha60), 1929.6 d 10 (1976Va30), 1925.2 d 4 (1980Ho17), 1924.8 d 10 and 1925.5 d 3 (1982RyZX), 1925.0 d 5 (1983Ru04), 1925.5 d 4 (1983Wa26), and 1925.1 d 5 (1992Un01), 1925.20 d 25 (2002Un02). The Limitation of Relative Statistical Weight method (LWM) has produced a value of 1923.5 d 3. Other evaluated result: 1925.23 d 27 (2004Wo02).

Levels: T_1/2(g.s.) Others:

Levels: 1936 d 256 (1940Li01), 1855 d 29 (1949Se20), 1921 d 62 (1950Br76), 1925 d 26 (1951To25), 1917.5 d 73 (1951Si25), 1903 d 15 (1953Ka21), 1914 d 11 (1957Ge07), 1947 d 15 (1958Ke26), 1807.9 (1953Lo09), 1925.5 d 4 (1970Wa19, replaced by 1983Wa26), and 1929.2 d 26 (1982HoZJ, replaced by 1992Un01).

Levels: T_1/2(g.s.): Several other averages were calculated in order to ascertain how much the result would vary with different analysis methods. The weighted average of the 10 values with uncertainties <4 d is 1925.3 d 4 with a reduced-χ²=4.6. The Normalized Residual method (1992Ja06) with 20 values (the 19 included above plus that of 1953Lo09) increases the uncertainties of three values and then the weighted average is 1925.2 d 3. The Rajeval method (1992Ra08) with all 20 values rejects the value of 1953Lo09 and increases the uncertainties of four others, and then the weighted average is 1925.3 d 2. These values are very consistent, so the result does not depend on the analysis method. The half-life evaluation was done by R. Helmer in conjunction with the Decay Data Evaluation Project (1999BeZS,1999BeZQ).

Gammas: δ values in comments are taken from ⁵⁷Fe(α,pγ), except as noted. For alternative values see ⁵⁹Co(n,γ), (pol n,γ)