Analysis of the total
β
-electron spectrum of
Rb 92
暂无分享,去创建一个
M. Fallot | A. Porta | A. Zakari-Issoufou | J. Kostensalo | A. Algora | M. Ramalho | J. Suhonen | G. A. Alcalá
[1] Stefan Schoppmann. Status of Anomalies and Sterile Neutrino Searches at Nuclear Reactors , 2021, Universe.
[2] Anil Kumar,et al. Second-forbidden nonunique $$\beta ^-$$ decays of $$^{59,60}$$Fe:possible candidates for $$g_{\mathrm{A}}$$ sensitive electron spectral-shape measurements , 2021, The European Physical Journal A.
[3] K. Zuber,et al. Confirmation of gA quenching using the revised spectrum-shape method for the analysis of the 113Cd β-decay as measured with the COBRA demonstrator , 2020, Physics Letters B.
[4] I. Štekl,et al. Quenching of gA deduced from the β-spectrum shape of 113Cd measured with the COBRA experiment , 2018, Physics Letters B.
[5] C. Giunti,et al. The gallium anomaly revisited , 2019, Physics Letters B.
[6] K. Zuber,et al. Neutrino–nuclear responses for astro-neutrinos, single beta decays and double beta decays , 2019, Physics Reports.
[7] J. Kostensalo,et al. Double β Decay and the Axial Strength , 2019, Front. Phys..
[8] J. Kostensalo,et al. Mesonic enhancement of the weak axial charge and its effect on the half-lives and spectral shapes of first-forbidden J+↔J− decays , 2018, Physics Letters B.
[9] A. Palazzo,et al. Current unknowns in the three-neutrino framework , 2018, Progress in Particle and Nuclear Physics.
[10] J. Valle,et al. Status of neutrino oscillations 2018: 3σ hint for normal mass ordering and improved CP sensitivity , 2017, Physics Letters B.
[11] J. Suhonen. Value of the Axial-Vector Coupling Strength in β and ββ Decays: A Review , 2017, Front. Phys..
[12] J. Menendez,et al. Status and future of nuclear matrix elements for neutrinoless double-beta decay: a review , 2016, Reports on progress in physics. Physical Society.
[13] P. Vogel,et al. Reactor Neutrino Spectra , 2016, 1605.02047.
[14] B. A. Brown,et al. The Shell-Model Code NuShellX@MSU , 2014 .
[15] J. Suhonen. From Nucleons to Nucleus , 2007 .
[16] K. Aleklett,et al. Integral \̄gn-spectra derived from experimental β-spectra of individual fission products , 1989 .
[17] K. Schreckenbach,et al. Antineutrino spectra from 241Pu and 239Pu thermal neutron fission products , 1989 .
[18] W. Gelletly,et al. Determination of the antineutrino spectrum from 235U thermal neutron fission products up to 9.5 MeV , 1985 .
[19] K. Schreckenbach,et al. Experimental beta-spectra from 239Pu and 235U thermal neutron fission products and their correlated antineutrino spectra☆ , 1982 .
[20] J. Delorme. MESON DEGREES OF FREEDOM IN NUCLEI , 1982 .
[21] K. Schreckenbach,et al. Absolute measurement of the beta spectrum from 235U fission as a basis for reactor antineutrino experiments , 1981 .
[22] J. Hardy,et al. The essential decay of pandemonium: A demonstration of errors in complex beta-decay schemes , 1977 .
[23] D. Kocher,et al. Nuclear data sheets for A = 92 , 1972 .