¹²⁴Te(p,n)¹²⁴I

Bibliography of experimental data

 

 

 

5 datasets (in 4 publications) obtained on enriched or partially enriched ¹²⁴Te targets with experimental cross-section data were identified in the literature for incident particle energies up to 32 MeV and are represented with uncertainties in Fig. All data. The article by Kondo et al. (1977) contains two series of data obtained on targets with different enrichment and are indicated as (a) and (b) in the figure. Additional data obtained on ^natTe targets can also be considered for energy points below 10.6 MeV, the threshold of the ¹²⁵Te(p,2n)¹²⁴I reaction. Seven datasets obtained by normalisation of data in experiments with ^natTe. These datasets are identified by (nat) in the figure. The data of 5 sets were rejected, because the published values are too low or too high. The remaining seven datasets were considered as input for a least squares Pade fit. In order to improve the agreement with the maximum of other sets the data of Van den Bosch et al. were energy shifted (-1.4 MeV at the maximal cross section). The Pade functions with 11 parameters were fitted to 60 selected data points with a χ²=3.21 and covering the energy range up to 32 MeV as shown in Fig. Recommended. Due to the large scatter of experimental results the uncertainties (including a 4% systematic uncertainty) are large and are below 45% only between 8 and 22 MeV.

 

 

 

 

* E. Acerbi, C. Birattari, M. Castiglioni, F. Resmini, M. Villa,

“Production of ¹²³I for medical purposes at the Milan AVF cyclotron,”

Int. J. Appl. Radiat. Isot. 26, 741–747 (1975):

EXFOR A0266.

 

* K. Kondo, R. M. Lambrecht, A. P. Wolf,

“¹²³I production for radiopharmaceuticals–XX: Excitation functions of the ¹²⁴Te(p,2n)¹²³I and ¹²⁴Te(p,n)¹²⁴I reactions and the effect of target enrichment on radionuclidic purity,”

Int. J. Appl. Radiat. Isot. 28, 395–401 (1977);

EXFOR B0090.

 

B. Scholten, Z. Kovacs, F. T. Tarkanyi, S. M. Qaim,

“Excitation functions of ¹²⁴Te(p,xn)^123,124I reactions from 6 to 31 MeV with special reference to the production of ¹²⁴I at a small cyclotron,

” App. Radiat. Isot. 46, 255–259 (1995);

EXFOR D4019.

 

R. Van Den Bosch, J. J. M. De Goeij, J. A. Van Der Heide, J. F. W. Tertoolen, H. M. J. Theelen, C. Zegers,

“A new approach to target chemistry for the iodine-123 production via the Te(p,2n) reaction,”

Int. J. App. Radiat. Isot. 28, 255–261 (1977);

EXFOR B0167

 

* J. Zweit, M. A. Bakir, R. J. Ott, H. L. Sharma, M. Cox, R. Goodall,

“Excitation functions of proton induced reactions in natural tellurium-production of no-carrier added iodine-124 for PET-applications,”

4th Int. Workshop on Targetry, Villigen, Switzerland, 76 (1991);

EXFOR O1260

 

A. M. Ahmed, H. E. Hassan, K. F. Hassan, A. M. Khalaf, Z. A. Saleh,

“Cross sections for the formation of radioiodines in proton bombardment of natural tellurium with particular reference to the validation of data for the production of ¹²³I,”

Radioch. Acta 99, 317–323 (2011);

EXFOR D0647.

 

K. M. El-Azony, K. Suzuki, T. Fukumura, F. Szelecsenyi, Z. Kovacs,

“Proton induced reactions on natural tellurium up to 63 MeV: Data validation and investigation of possibility of ¹²⁴I production,”

Radioch. Acta 96, 763–769 (2008);

EXFOR D0502.

 

S. A. Kandil and M. Al-Abyad,

“Cross section measurements and theoretical calculations of proton induced nuclear reactions on natural tellurium,”

Radioch. Acta 101, 67–72 (2013);

EXFOR D0707.

 

B. Kiraly, F. T. Tarkanyi, S. Takacs, Z. Kovacs,

“Excitation functions of proton induced nuclear reactions on natural tellurium up to 18 MeV for validation of isotopic cross sections,”

J. Radioanal. Nucl. Chem. 270, 369–378 (2006);

EXFOR D4177.

 

* B. Scholten, S. M. Qaim, G. Stocklin,

“Excitation functions of proton induced nuclear reactions on natural tellurium and enriched ¹²³Te: Production of ¹²³I via the ¹²³Te(p,n)¹²³I-process at a low-energy cyclotron,”

Int. J. Radiat. Appl. Instrum., Part A, Appl.Radiat. Isotop. 40, 127–132 (1989);

EXFOR A0473.

 

* K. Zarie, N. A. Hammad, A. Azzam,

“Excitation functions of (p,xn) reactions on natural tellurium at low energy cyclotron: relevance to the production of medical radioisotope I-123,”

J. Nucl. Radiat. Phys. 1, 93 (2006);

EXFOR O1736.

 

 

Yield

 

 

K. Kondo, R.M. Lambrecht, E.F. Norton, A.P. Wolf,

Cyclotron isotopes and radiopharmaceuticals—XXII. Improved targetry and radiochemistry for production of ¹²³I and ¹²⁴I,

The International Journal of Applied Radiation and Isotopes 28 (1977) 765.
Exfor: B0169  

 

P.P. Dmitriev, M.V. Panarin, Z.P. Dmitrieva,

¹²³I, ¹²⁴I, ¹²⁵I, ¹²⁶I, ¹³⁰I, ¹³¹I and ¹³²I yields when irradiating tellurium with protons, deuterons and alpha particles and antimony with alpha particles, Atomnaya Energiya 49 (1980) 329.
Exfor: A0078

P.P. Dmitriev, G.A. Molin,

Radioactive nuclide yields for thick target at 22 MeV proton energy,

Vop. At. Nauki i Tekhn., Ser. Yadernye Konstanty 44 (1981) 43, INDC(CCP)-188/L, 1983.
Exfor: A0168

P.P. Dmitriev,

Radionuclide yield in reactions with protons, deuterons, alpha particles and ³He,

Moscow, Ehnergioatomizdat (1986), and INDC(CCP)-263/G+CN+SZ (1986)
Exfor: no

R. J. Nickles,

A shotgun approach to the chart of the nuclides; Radiotracer production with an 11 MeV proton cyclotron,

Acta Radiologica, Supplementum 376 (1991) 9.
Exfor: no

B. Scholten, Z. Kovács, F. Tárkányi, S.M. Qaim,

Excitation functions of ¹²⁴Te(p,xn)^124,123I reactions from 6 to 31 MeV with special reference to the production of ¹²⁴I at a small cyclotron,

Applied Radiation and Isotopes 46 (1995) 255.
Exfor: no

R. Weinreich, E.J. Chants,

Quality control of ¹²⁴I,

Proceedings of Sixth Workshop on Targetry and Target Chemistry, Aug. 17-19, 1995, Vancouver, B. C., Canada, (eds. J. M. Link , T. Ruth), Triumf, Canada, 1996, p. 84.
Exfor: no  

 

S.M. Qaim, A. Hohn, Th. Bastian, K.M. El-Azoney, G. Blessing, S. Spellerberg, B. Scholten, H.H. Coenen,

Some optimisation studies relevant to the production of high-purity ¹²⁴I and ^120gI at a small-sized cyclotron, Applied Radiation and Isotopes 58 (2003) 69.
Exfor: no  

 

M. Sajjad, E. Bars, H.A. Nabi,

Optimization of ¹²⁴I production via ¹²⁴Te(p,n)¹²⁴I reaction,

Applied Radiation and Isotopes 64 (2006) 965.
Exfor: C1462  

 

J.A. Nye, M.A. Avila-Rodriguez, R.J. Nickles,

A new binary compound for the production of ¹²⁴I via the ¹²⁴Te(p,n)¹²⁴I reaction,

Applied Radiation and Isotopes 65 (2007) 407.
Exfor: C1517  

 

Top of the page

 

  Last updated: Aug. 2021.