Zobrazeno 1 - 10
of 54
pro vyhledávání: '"W. G. Burns"'
Autor:
M. C. R. Symons, L. Kevan, J. Kroh, A. Płonka, K. Wyszywacz, G. A. Salmon, J. W. Fletcher, J. Belloni, A. K. Pikaev, A. Singh, U. Schindewolf, G. V. Buxton, D. Meyerstein, K.-D. Asmus, A. Henglein, M. A. J. Rodgers, H. A. Schwarz, M. G. Simic, R. H. Schuler, B. C. Webster, W. Bartczak, Cz. Stradowski, M. J. Pilling, W. G. Burns, P. Cordier, E. Collinson, A. Charlesby, F. Kieffer, J. Mayer, M. Szadkowska
Publikováno v:
Faraday Discuss. Chem. Soc.. 63:67-95
Publikováno v:
The Journal of Physical Chemistry. 90:3238-3242
The radiation chemical yields of HO/sub 2/ radicals produced by /sup 1/H, /sup 4/He, /sup 7/Li, /sup 9/Be, /sup 11/B, /sup 12/C, and /sup 20/Ne ions having energies up to 35 MeV have been determined. At energies above 10 MeV the yield with protons ap
Publikováno v:
Journal of Physics E: Scientific Instruments. 15:1240-1243
Deals with fast signal determination when the signal/noise ratio is low, and with pulse radiolysis using a jet as the target. Modifications to the nanosecond proton pulse radiolysis equipment of Burns et al. (1978) are described and discussed. Consid
Autor:
W. G. Burns, P. B. Moore
Publikováno v:
Radiation Effects. 30:233-242
The well-known effects of dissolved oxygen and hydrogen in respectively increasing and reducing the corrosion rate of zircaloys irradiated in high temperature water have been attributed to changes in the course of water radiolysis.1 Computer simulati
Autor:
H. J. Bernstein, W. G. Burns
Publikováno v:
The Journal of Chemical Physics. 18:1669-1673
The infra‐red absorption spectra of nitrosyl chloride and nitrosyl bromide vapors have been examined from 400 to 5303 cm−1, and the spectra explained on the basis of three fundamentals at 1799, 592, and 332 cm−1 for NOCl and 1801, 542, and 265
Effects of L.E.T. and temperature in the radiolysis of cyclohexane. Part 2.—Diffusion kinetic models
Publikováno v:
Trans. Faraday Soc.. 66:2182-2191
Two radiation chemical diffusion models are described. In the first, the radical model, the effect of L.E.T. is due to the competing reactions of H· atoms. A Gaussian spherical or cylindrical initial distribution of H· atoms and C6H·11 radicals is
Publikováno v:
Journal of Scientific Instruments. 32:316-319
A crystal dosimeter is described. The sensitive element is a crystal of potassium chloride containing potassium hydride in solid solution at a concentration of 5.5 × 1018 molecules potassium hydride per cm3, and this becomes coloured due to the form
Publikováno v:
The Journal of Physical Chemistry. 70:910-924
Publikováno v:
Helvetica Chimica Acta. 47:247-259
Liquid toluene was irradiated with /sup 60/Co gamma rays, with protons of energies from 1.8 to 0.5 Mev, and with alpha particles of 1.5and 0.7 Mev with a dose of 10 and 30 Mrad at 20 to 25 deg C. The G values increased with increasing LET (linear ene
Autor:
W. G. Burns, C. R. V. Reed
Publikováno v:
Trans. Faraday Soc.. 66:2159-2181
For low dose (∼3 × 1019 eV g–1) irradiations of liquid cyclohexane at room temperature, G values of hydrogen, bicyclohexyl and cyclohexene were measured, using a number of different kinds of radiation, viz. 60Co γ-rays, 4He ions of energy 58, 2