Geant4 Cross Reference |
1 # Time (ps) Gvalue Error 1 # Time (ps) Gvalue Error 2 #Shiraishi H, Katsumura Y, Hiroishi D, Ishigur 2 #Shiraishi H, Katsumura Y, Hiroishi D, Ishigure K and Washio M 1988 Pulse-radiolysis study on the yield of hydrated electron at elevated temperatures J. Phys. Chem. 92 3011–7 3 5000 3.45 0.2 3 5000 3.45 0.2 4 70000 2.93 0.2 4 70000 2.93 0.2 5 300000 2.67 0.15 5 300000 2.67 0.15 6 6 7 7 8 #Sumiyoshi T and Katayama M 1982 The yield of 8 #Sumiyoshi T and Katayama M 1982 The yield of hydrated electrons at 30 picoseconds Chem. Lett. 11 1887–90 9 30 4.8 0.3 9 30 4.8 0.3 10 10 11 11 12 #Wolff R K, Bronskill M J, Aldrich J E and Hun 12 #Wolff R K, Bronskill M J, Aldrich J E and Hunt J W 1973 Picosecond pulse radiolysis. IV. Yield of the solvated electron at 30 picoseconds J. Phys. Chem. 77 1350–5 13 30 4 0.2 13 30 4 0.2 14 100000 2.67 0.1 14 100000 2.67 0.1 15 15 16 16 17 #Buxton G V 1972 Nanosecond pulse radiolysis o 17 #Buxton G V 1972 Nanosecond pulse radiolysis of aqueous solutions containing proton and hydroxyl radical scavengers Proc. R. Soc. A 328 1972 18 7000 3.556 0.084 18 7000 3.556 0.084 19 45000 3.052 0.084 19 45000 3.052 0.084 20 120000 2.8 0.08 20 120000 2.8 0.08 21 21 22 22 23 # Muroya Y et al 2005 A re-evaluation of the i 23 # Muroya Y et al 2005 A re-evaluation of the initial yield of the hydrated electron in the picosecond time range Radiat. Phys. Chem. 72 169–72 24 20 4.1 0.2 24 20 4.1 0.2