S. M. Qaim, Therapeutic Radionuclides and Nuclear Data, vol.89, pp.297-302, 2011.
DOI : 10.1524/ract.2001.89.4-5.297

S. M. Qaim, Nuclear Data for Medical Radionuclides, vol.305, pp.233-245, 2015.
DOI : 10.1007/s10967-014-3923-2

S. M. Qaim, Nuclear Data for Production and Medical Application of Radionuclides: Present Status and Future Needs, vol.44, pp.31-49, 2017.

E. B?ták, A. D. Caldeira, R. Capote, B. V. Carlson, H. D. Choi et al., Nuclear Data for the Production of Therapeutic Radionuclides, International Atomic Energy Agency, vol.473, 2011.

R. Capote and F. M. Nortier, Improvements in charged-particle monitor reactions and nuclear data for medical isotope production, IAEA report INDC(NDS)-0591, pp.21-24, 2011.

A. L. Nichols, S. M. Qaim, and R. Capote, Technical Meeting on "Intermediate-term Nuclear Data Needs for Medical Applications: Cross Sections and Decay Data, pp.22-26, 2011.

A. L. Nichols and R. Capote, Summary Report of First Research Coordination Meeting on Nuclear Data for Charged-particle Monitor Reactions and Medical Isotope Production, IAEA report INDC(NDS)-0630, 2012.

A. L. Nichols, F. M. Nortier, and R. Capote, Summary Report of Second Research Coordination Meeting on "Nuclear Data for Charged-particle Monitor Reactions and Medical Isotope Production, IAEA report INDC(NDS)-0675, 2015.

A. L. Nichols, F. M. Nortier, and R. Capote, Summary Report of Third Research Coordination Meeting on "Nuclear Data for Charged-particle Monitor Reactions and Medical Isotope Production, IAEA report INDC(NDS)-0717, 2016.

A. Hermanne, A. V. Ignatyuk, R. Capote, B. V. Carlson, J. W. Engle et al., Reference Cross Sections for Charged-particle Monitor Reactions, pp.328-382, 2018.
DOI : 10.1016/j.nds.2018.02.009
URL : https://hal.archives-ouvertes.fr/hal-01758075

H. E. Padé, Sur la Représentation Approchée d' une Fonction par des Fractions Rationnelles, vol.9, pp.3-93, 1892.

P. R. Graves-morris, Padé Approximants and their Applications, 1973.

G. A. Baker, Essentials of Padé Approximants, 1975.

V. N. Vinogradov, E. V. Gai, and N. S. Rabotnov, Analytical Approximation of Data in Nuclear and Neutron Physics, 1987.

. In-russian,

E. V. Gai, Some Algorithms for the Nuclear Data Evaluation and Construction of the Uncertainty Covariance Matrices, pp.56-65, 2007.

. In-russian,

. Nudat, Decay data retrieval code available online at www.nndc.bnl.gov/nudat2

, Available online at www.nndc.bnl.gov/ensdf/ . Developed and maintained by the International Network Of Nuclear Structure and Decay Data Evaluators (NSDD) (see wwwnds

U. K. Henschke and D. C. Lawrence, Cesium-131 seeds for permanent implants, vol.85, p.1117, 1965.

T. S. Kehwar, Use of Cesium-131 radioactive seeds in prostate permanent implants, vol.34, p.191, 2009.

S. Pommé, M. Marouli, G. Suliman, H. Dikmen, R. Van-ammel et al.,

F. Paepen, C. Bruchertseifer, A. Apostolidis, and . Morgenstern, Measurement of the 225 Ac half-life

F. Tarkanyi, A. Hermanne, S. Takacs, R. A. Rebeles, P. Van-den-winkel et al.,

. Cs, A p p . R a d . I s o t o p, vol.67, p.1751, 2009.

M. C. Lagunas-solar, F. E. Little, H. A. Moore, and J. , Cyclotron Production of 128Cs (3.62 min). A New PositronEmitting Radionuclide for Medical Applications, vol.33, p.619, 1982.

. Exfor-c0968,

C. Deptula, O. Kim-sen-han, S. Knotek, L. M. Mikolajewski, E. Popinenkova et al., Production of 128,131 Ba, 132 Cs in proton induced reactions on a Cs target and of 127,129 Cs in 3,4 He induced reactions on I target, vol.35, p.63, 1990.

. Exfor-a0572,

R. W. Fink and E. O. Wiig, Reactions of Cesium with Protons at 60, 80, 100, 150, and 240 MeV, vol.96, p.185, 1954.
DOI : 10.1103/physrev.96.185

. Exfor-c2000,

F. Tarkanyi, A. Hermanne, S. Takacs, F. Ditroi, B. Kiraly et al., New measurements and evaluation of excitation functions for (p,xn), (p,pxn) and (p,2pxn) reactions on 133 Cs up to 70 MeV proton energy, vol.68, p.47, 2010.

. Exfor-d4226,

R. S. Tilbury and L. Yaffe,

. P-h-y-s-.-r-e-v, , vol.129, p.1709, 1963.

. Exfor-d4224,

K. Sakamoto, M. Dohniwa, and K. Okada, Excitation Function for (p,xn) and (p,pxn) Reactions on Natural 79+81 Br, 85+87 Rb, 127 I and 133 Cs up to Ep = 52 MeV

, A p p l . R a d i at . I s o t, vol.36, p.481, 1985.

. Exfor-e1867,

R. D. Neirinckx, B. L. Holman, M. A. Davis, and R. E. Zimmerman, Tantalum-178 radiohparmaceuticals for lung and liver imaging, vol.20, p.1176, 1978.

R. Neirinckx, A. G. Jones, M. A. Davis, G. I. Harris, and B. L. Holman, Tantalum-178 -A short lived nuclide for nuclear medicine: Development of a potential generator system, vol.19, p.514, 1978.

B. L. Holman, G. I. Harris, R. D. Neirinckx, A. G. Jones, and J. Idoine, Tantalumn-178 -A short lived nuclide: Production of the parent W-178, vol.19, p.510, 1978.

C. J. Hartley, J. L. Lacy, D. Dai, N. Nayak, G. E. Taffet et al., Functional cardiac imaging in mice using Ta-178, N at u r e M e d i c i n e, vol.5, p.237, 1999.
DOI : 10.1038/5602

J. Bisplinghoff, J. Ernst, T. Mayer-kuckuk, P. Jahn, and C. Mayer-boericke, Excitation Functions of D-Induced Reactions on 181 Ta from 10 to 80 MeV and Equilibrium Statistical Analysis of (p,xn) Reactions on Tantalum and Gold, p.180, 1974.

F. Tarkanyi, S. Takacs, F. Ditroi, A. Hermanne, A. V. Ignatyuk et al., Activation cross sections of aparticle induced nuclear reactions on hafnium and deuteron-induced nuclear reaction on tantalum: Production of 178 W/ 178m Ta generator, vol.91, p.114, 2004.

G. Kim, M. Shahid, K. Kim, M. Zaman, M. Tatari et al., Measurement of excitation functions for the nat Ta(p,x) reactions

N. G. Zaytseva, E. Rurarz, V. A. Khalkin, V. I. Stegailov, and L. M. Popinenkova, Excitation Function For W-178 Production in the Ta-181(p,4n)W-178 Reaction Over Proton Energy Range 28.8-71.8 MeV, vol.64, p.1, 1994.

C. Birattari, E. Gadioli, A. M. Strini, G. Strini, G. Tagliaferri et al., p,xn) Reactions Induced in Tm-169, Ta-181 and Bi-209 with 20 to 45 MeV Protons, vol.166, p.605, 1971.

M. S. Uddin, M. Hagiwara, N. Kawata, T. Itoga, N. Hirabayashi et al., Measurement of excitation functions of the protoninduced activation reactions on tantalum in the energy range 28-70 MeV, vol.4, p.160, 2004.

R. Michel, M. Gloris, J. Protoschill, U. Herpers, J. Kuhnhenn et al., Cross sections for the production of radionuclides by proton-induced reactions on, vol.2

. Gev, , vol.2, p.242, 2002.

Y. E. Titarenko, V. F. Batyaev, A. Yu, M. A. Titarenko, K. V. Butko et al., Measurement and simulation of the cross sections for nuclide production in W-nat and Ta-181 targets irradiated with 0.04-to 2.6-GeV protons, vol.74, p.574, 2001.

J. W. Engle, The Production of Ac-225, C u r r . R a d i o p h a r m, 2018.

M. Lindner and R. N. Osborne, Nonfission inelastic events in uranium and thorium induced by high-energy protons, vol.103, p.387, 1956.
DOI : 10.1103/physrev.103.378

H. Gauvin, Reactions (p,2p?n) sur le thorium-232 de 30 a 120 MeV, vol.24, p.386, 1963.
DOI : 10.1051/jphys:019630024011083600

M. Lefort, G. Simonoff, and X. Tarrago, Competition fissionspallation dans les cibles de thorium bombardees par proton de 155 MeV, J . P h y s . R a d i u m, vol.21, p.388, 1960.
DOI : 10.1051/jphysrad:01960002105033800
URL : https://hal.archives-ouvertes.fr/jpa-00236253/file/ajp-jphysrad_1960_21_5_338_0.pdf

B. D. Pate and A. M. Poskanzer, Spallation of uranium and thorium nuclei with BeV-energy protons, vol.123, p.647, 1961.
DOI : 10.1103/physrev.123.647

M. Lefort, G. N. Simonoff, and X. Tarrago, A spallation nuclear reaction on thorium at 150 and 82 MeV proton energies, vol.254, p.216, 1961.

J. R. Griswold, D. G. Medvedev, J. W. Engled, R. Copping, J. M. Fitzsimmons et al., Large scale accelerator production of 225 Ac: Effective cross sections for 78192 MeV protons incident on 232 Th targets

E. Titarenko, V. F. Batyaev, E. I. Karpikhin, R. D. Mulambetov, A. B. Koldobsky et al., Experimental and theoretical study of the yields of residual product nuclei produced in thin targets irradiated by 100-2600 MeV protons

J. W. Weidner, S. G. Mashnik, K. D. John, B. Ballard, E. R. Birnbaum et al., Proton-induced cross sections relevant to production of 225 Ac and 223 Ra in natural thorium targets below 200 MeV, vol.70, p.2602, 2012.

S. V. Ermolaev, B. L. Zhuikov, V. M. Kokhanyuk, V. L. Matushko, S. N. Kalmykov et al., Production of actinium, thorium and radium isotopes from natural thorium irradiated with protons up to 141 MeV, vol.100, p.223, 2012.

B. L. Zhuikov, S. N. Lalmykov, S. V. Ermolaev, R. A. Aliev, V. M. Kokhanyuk et al., Production of 225 Ac and 223 Ra by irradiation of Th with accelerated protons, R a d i o c h e m i s t ry, vol.53, pp.73-80, 2011.

C. Duchemin, A. Guertin, F. Haddad, N. Michel, and V. Metivier, Production of medical isotopes from a thorium target irradiated by light charged particles up to 70 MeV, 2015.
URL : https://hal.archives-ouvertes.fr/in2p3-01188689

C. Apostolidis, R. Molinet, J. Mcginley, K. Abbas, J. Mollenbeck et al., Cyclotron production of Ac-225 for targeted alpha therapy, vol.62, p.383, 2005.

J. J. Hogan, E. Gadioli, E. Gadioli-erba, and C. ,

C. , Fissionability of Nuclides in the Thorium Region at Excitation Energies to 100 MeV, P h y s . R e v . C, vol.20, p.1831, 1979.

J. W. Engle, J. W. Weidner, B. D. Ballard, M. E. Fassbender, L. A. Hudston et al., Ac, La, and Ce radioimpurities in 225 Ac produced in 40-200 MeV proton irradiations of thorium, vol.201, pp.569-581, 2014.

A. Morgenstern, O. Lebeda, J. A. Tursa, F. Bruchertseifer, R. Capote et al., Production of
URL : https://hal.archives-ouvertes.fr/hal-01871837

P. , , vol.80, p.22, 2008.

A. Morgenstern, O. Lebeda, J. A. Tursa, R. Capote, M. Sin et al., Cross sections of the reaction 231 Pa(d,3n) 230 U for production of 230 U/ 226 Th for targeted alpha therapy

, C, vol.80, issue.5, p.54612, 2009.

H. A. Tewes, Excitation Functions for Some ProtonInduced Reactions of Thorium, P h y s . R e v, vol.98, p.25, 1955.

W. W. Meinke, G. C. Wick, and G. T. Seaborg, High-energy excitation functions in the heavy region, vol.3, p.69, 1956.

A. Celler, M. Luontama, J. Kantele, and J. Zylicz,

. Mev, P h y s . S c r i p ta, vol.24, p.930, 1981.

H. Kudo, H. Muramatsu, H. Nakahara, K. Miyano, and I. Kohno, Fission Fragment Yields in the Fission of 232 Th by Protons of Energies 8 to 22 MeV, P h y s . R e v . C, vol.25, p.3011, 1982.

C. U. Jost, J. R. Griswold, S. H. Bruffey, S. Mirzadeh, D. W. Stracener et al., , p.4

, C o n f . P ro c . A m . I n s t . P h y s, vol.1525, p.520, 2013.

A. Roshchin, S. Yavshits, V. Jakovlev, E. Karttunen, J. Aaltonen et al., Cross sections of nonfission reactions induced in Th-232 by low-energy protons, vol.60, p.1941, 1997.

A. Morgenstern, C. Apostolidis, F. Bruchertseifer, R. Capote, T. Gouder et al., Crosssections of the reaction 232 Th(p,3n) 230 Pa for production of 230 U for targeted alpha therapy, vol.66, p.1275, 2008.

Y. Y. Chu and M. L. Zhou, Comparison of the (p, xn) Cross Sections from 238U, 235U and 232Th Targets Irradiated with 200 MeV Protons, vol.30, pp.1153-1155, 1983.

C. Brun and G. N. Simonoff, Compétition fission-évaporation. Etude des fonctions d'excitation dans différents noyaux de protactinium, vol.23, pp.12-16, 1962.