The study and spectroscopy of Internal Conversion (IC) and Internal Pair Production (IPP) processes provide valuable information about nuclei and nuclear states. In the present work, Internal Conversion and Internal Pair Production processes are initially reviewed. Then, the theoretical and experimental IC coefficients, as well as the theoretical and experimental ratio of IC to IPP probabilities for the E0 transition in several isotopes are compiled and compared. The relative differences between theoretical and experimental coefficients are obtained. Significant discrepancies are observed between theoretical and experimental coefficients for several isotopes such as 101Ru, 152Gd, 58Co, 125Te, and other isotopes. These comparisons and the relative differences reveal the need for more accurate experimental measurements and improved theoretical models.

Internal Conversion; Internal Pair Production; Internal Conversion Coefficient; E0 transition

O. Dragoun, Adv. Electron. Electron Phys. 60 (1983) 1.

F. C. Zawislak, J. D. Rogers, and E. A. Meneses, Nucl. Phys. A. 211 (1973) 581.

M. E. Rose, G. H. Goertzel, B. I. Spinrad et al., Phys. Rev. 83 (1951) 79.

M. Rysavy and O. Dragoun, At. Data Nucl. Data Tables. 78 (2001) 129.

J. C. Hardy, N. Nica, V. E. Iacob et al., Appl. Radiat. Isot. 134 (2018) 406.

W. R. Mills, Absolute Measurments of Internal Conversion Coefficients, Ph.D. Thesis, California Institute of Technology, 1955.

M. Nessin, T. H. Kruse, and K. E. Eklund, Phys. Rev. 125 (1962) 639.

A. Passoja, R. Julin, J. Kantele et al., Nucl. Phys. A. 363 (1981) 399.

I. Kambali, H. Suryanto, and Parwanto, Atom Indones. 42 (2016) 1.

S. Raman, C. W. Nestor, A. Ichihara et al., Phys. Rev. C. 66 (2002) 044312.

T. Kibedi, T. W. Burrows, M. B. Trzhaskovskaya et al., Nucl. Instrum. Methods Phys. Res. A, 589 (2008) 202.

O. Dragoun, Z. Plajner, and F. Schmutzler, Nucl. Data Tables A. 9 (1971) 119.

V. F. Trusov, Nucl. Data Tables. 10 (1972) 477.

R. S. Hager and E. C. Seltzer, Nucl. Data Sheet Sect. A, 4 (1968) 1.

F. Rosel, H. M. Fries, K. Alder et al., At. Data Nucl. Data Tables 21 (1978) 291.

I. M. Band, M. B. Trzhaskovskaya, C. W. Nestor et al., At. Data Nucl. Data, 81 (2002) 1.

R. J. Lombard, C. F. Perdrisat, and J. H. Brunner, Nucl. Phys. A. 110 (1968) 41.

A. Passoja and T. Salonen, Electronic Factors for K-Shell-Electron Conversion Probability and Electron-Positron Pair Formation Probability in Electric Monopole Transitions, JYFL RR-2/86, 1986.

G. Soff, P. Schluter, and W. Greiner, Z. Phys. A. 303 (1981) 189

J. T. H. Dowie, T. Kibedi, T. K. Eriksen et al., At. Data Nucl. Data Tables 131 (2020) 101283.

D. R. Rao, K. V. Sai, M. Sainath et al., Eur. Phys. J. A. 26 (2005) 41.

N. Nica, J. C. Hardy, V. E. Iacob et al., Phys. Rev. C. 98 (2018) 054321.

M. Sainath, K. V. Sai, R. Dwarakarani et al., J. Nucl. Phy. Mat. Sci. Rad. A. 8 (2020) 25.