A. O. Allen, The radiation chemistry of water and aqueous solutions, 1961.

A. R. Anderson and E. J. Hart, Molecular Product and Free Radical Yields in the Decomposition of Water by Protons, Deuterons, and Helium Ions, Radiation Research, vol.14, issue.6, p.689, 1961.
DOI : 10.2307/3571010

A. Appleby and H. A. Schwarz, Radical and molecular yields in water irradiated by .gamma.-rays and heavy ions, The Journal of Physical Chemistry, vol.73, issue.6, pp.1937-1941, 1969.
DOI : 10.1021/j100726a048

G. Baldacchino, L. Parc, D. Hickel, and B. , Direct Observation of HO 2 /O 2 - Free Radicals Generated in Water by a High-Linear Energy Transfer Pulsed Heavy-Ion Beam, Radiation Research, vol.149, issue.2, 1998.
DOI : 10.2307/3579921

G. Baldacchino, V. Trupin-wasselin, and S. E. Bouffard, Production of superoxide radicals by linear-energy-transfer pulse radiolysis of water, Can. J, 2001.

G. V. Buxton, The Radiation Chemistry of Liquid Water, Charged particle and photon interactions with Matter -Chemical, Physicochemical and Biological Consequences with Applications. Dekker, A. Mozumder and Y. Hatano, pp.331-363, 2004.
DOI : 10.1201/9780203913284.ch12

G. V. Buxton, C. L. Greenstock, W. P. Helman, and R. A. , in Aqueous Solution, Journal of Physical and Chemical Reference Data, vol.17, issue.2, p.513, 1988.
DOI : 10.1063/1.555805

V. M. Byakov, The nature of the precursors of radiolytic molecular hydrogen in water, and the mechanism of positronium formation in liquids, International Journal for Radiation Physics and Chemistry, vol.8, issue.3, p.13, 1976.
DOI : 10.1016/0020-7055(76)90071-1

V. Cobut, J. P. Jay-gerin, Y. Frongillo, and P. J. , On the dissociative electron attachment as a potential source of molecular hydrogen in irradiated liquid water, Radiation Physics and Chemistry, vol.47, issue.2, p.247, 1996.
DOI : 10.1016/0969-806X(94)00175-J

M. Domae, Y. Katsumura, K. Ishigure, and V. M. Byakov, Modeling of primary chemical processes of water radiolysis and simulation by spur diffusion model, Radiation Physics and Chemistry, vol.48, issue.4, 1996.
DOI : 10.1016/0969-806X(96)00060-6

I. G. Draganic, M. T. Nenadovic, and D. Z. , Radiolysis of HCOOH + O2 at pH 1,3-13 and the yields of primary products in gamma radiolysis of water, J, 1969.

R. Essehli, F. Crumière, G. Blain, J. Vandenborre, F. Pottier et al., H2 production by ?? and He ions water radiolysis, effect of presence TiO2 nanoparticles, International Journal of Hydrogen Energy, vol.36, issue.22, pp.14342-14348, 2011.
DOI : 10.1016/j.ijhydene.2011.05.136

URL : https://hal.archives-ouvertes.fr/in2p3-00650798

M. Faraggi, On the molecular hydrogen formation in the gamma radiolysis of water and aqueous solutions, International Journal for Radiation Physics and Chemistry, vol.5, issue.2, pp.197-206, 1973.
DOI : 10.1016/0020-7055(73)90042-9

M. Faraggi and J. Desalos, Effect of positively charged ions on the ???molecular??? hydrogen yield in the radiolysis of aqueous solutions, International Journal for Radiation Physics and Chemistry, vol.1, issue.3, p.335, 1969.
DOI : 10.1016/0020-7055(69)90031-X

C. Ferradini and J. Pucheault, Biologie de l'action des rayonnements ionisants, 1983.

H. Fricke and E. J. Hart, Chemical dosimetry, Radiation Dosimetry, Attix F.H. et Roesch W.C, 1966.

J. A. Ghormley and C. Hochanadel, THE YIELDS OF HYDROGEN AND HYDROGEN PEROXIDE IN THE IRRADIATION OF OXYGEN SATURATED WATER WITH COBALT GAMMA-RAYS, Journal of the American Chemical Society, vol.76, issue.12, p.3351, 1954.
DOI : 10.1021/ja01641a085

T. Goulet and J. P. Jay-gerin, Thermalization of Subexcitation Electrons in Solid Water, Radiation Research, vol.118, issue.1, pp.46-60, 1989.
DOI : 10.2307/3577422

W. H. Hamill, Model for the radiolysis of water, The Journal of Physical Chemistry, vol.73, issue.5, p.1341, 1969.
DOI : 10.1021/j100725a027

E. Hayon and M. Moreau, Reaction Mechanism Leading to the Formation of Molecular Hydrogen in the Radiation Chemistry of Water, The Journal of Physical Chemistry, vol.69, issue.12, p.4058, 1965.
DOI : 10.1021/j100782a002

C. J. Hochanadel, Effects of Cobalt ??-Radiation on Water and Aqueous Solutions, The Journal of Physical Chemistry, vol.56, issue.5, 1952.
DOI : 10.1021/j150497a008

K. Ishigure, Y. Katsumura, G. R. Sunaryo, and H. D. , Radiolysis of high temperature water, Radiation Physics and Chemistry, vol.46, issue.4-6, pp.4-6, 1995.
DOI : 10.1016/0969-806X(95)00217-L

L. Verne and J. A. , Radical and molecular yields in the radiolysis of water with carbon ions, International Journal of Radiation Applications and Instrumentation. Part C. Radiation Physics and Chemistry, vol.34, issue.1, pp.135-143, 1989.
DOI : 10.1016/1359-0197(89)90018-0

L. J. Ryan, M. R. Mu, and T. , Hydrogen production in the radiolysis of bromide solutions, Radiation Physics and Chemistry, vol.78, issue.12, pp.1148-1152, 2009.

L. J. and S. M. Pimblott, New Mechanism for H2 Formation in Water, J, 2000.

L. J. Schuler and R. H. , Radiation chemical studies with heavy ions: oxidation of ferrous ion in the Fricke dosimeter, The Journal of Physical Chemistry, vol.91, issue.22, pp.5770-5776, 1987.

M. Lefort and X. Tarrago, Radiolysis of Water by Particles of High Linear Energy Transfer. The Primary Chemical Yields in Aqueous Acid Solutions of Ferrous Sulfate, and in Mixtures of Thallous and Ceric Ions, The Journal of Physical Chemistry, vol.63, issue.6, pp.833-836, 1959.
DOI : 10.1021/j150576a014

J. L. Magee and A. Chatterjee, Track reactions of radiation chemistry, 1987.

H. A. Mahlman, THE ???DIRECT EFFECT??? IN THE RADIOLYSIS OF AQUEOUS SODIUM NITRATE SOLUTIONS, The Journal of Physical Chemistry, vol.67, issue.7, p.1466, 1963.
DOI : 10.1021/j100801a015

M. Matsui, H. Seki, T. Karasawa, and M. Imamura, Radiation Chemical Studies with Cyclotron Beams, (I), Journal of Nuclear Science and Technology, vol.65, issue.2, pp.97-104, 1970.
DOI : 10.1039/tf9656100702

B. Pastina and J. A. Laverne, Effect of Molecular Hydrogen on Hydrogen Peroxide in Water Radiolysis, The Journal of Physical Chemistry A, vol.105, issue.40, pp.9316-9322, 2001.
DOI : 10.1021/jp012245j

B. Pastina, J. A. Laverne, and S. M. Pimblott, Dependance of molecular hydrogen formation in water on scavengers of the precursor to the hydrated elctron, J. Phys, 1999.

E. Peled and C. Czapski, Molecular hydrogen formation (GH2) in the radiation chemistry of aqueous solutions, The Journal of Physical Chemistry, vol.74, issue.15, p.2903, 1969.
DOI : 10.1021/j100709a010

R. D. Saini and P. K. Bhattacharyya, Radiolytic oxidation of U(IV) sulphate in aqueous solution by alpha particles from cyclotron, International Journal of Radiation Applications and Instrumentation. Part C. Radiation Physics and Chemistry, vol.29, issue.5, pp.375-379, 1987.
DOI : 10.1016/1359-0197(87)90009-9

H. A. Schwarz, Applications of the spur diffusion model to the radiation chemistry of aqueous solutions, The Journal of Physical Chemistry, vol.73, issue.6, 1928.
DOI : 10.1021/j100726a047

H. A. Schwarz, J. P. Losee, and A. A. , Hydrogen yields in the radiolysis of aqueous solutions, J. Phys. Chem, vol.76, pp.4693-4694, 1954.

G. R. Sunaryo, Y. Katsumura, I. Shirai, D. Hiroishi, and K. Ishigure, Radiolysis of water at elevated temperatures???I. Irradiation with gamma-rays and fast neutrons at room temperature, Radiation Physics and Chemistry, vol.44, issue.3, pp.273-280, 1994.
DOI : 10.1016/0969-806X(94)90005-1

J. F. Ziegler, M. D. Ziegler, and J. P. Biersack, SRIM -The stopping and range of ions in matter. Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with, Materials and Atoms, vol.268, pp.11-12, 2010.