The influence of a magnetic field on the fluorescence and photolysis rate of carbon disulfide vapour

Magnetic field effects on the NO2 photolysis rate at an energy range below the dissociation threshold are shown to be identical to those observed in fluorescence. According to the data obtained, both the 'B2 and \*B, states of NO2 are reactive. The high pressure data have been explained in terms of

Fluorcsccncc from the 'A, state o~glyosal is quenched by a magnetic field and the prc-cxponential Factor of phosphorcsccncc from lhc 3A, state increases with increasing mugetic field. These finding arc csplained by the cnhancemcnt of inrmmolcculor intersystcm crossing by the mugnctic field.

The formation of calcium carbonate is a common ionic reaction that takes place in natural processes and in various technologies. In spite of the simplicity of the reaction, there is a considerable variability in the properties of the solid product, such as the crystal form, particle size distributio

The effect of a high magnetic field ( < 14 T) on the intramolecular exciplex fluorescence generated from a phenanthrene and dimethylaniline chain-linked molecule is studied in acetonitrile. On increasing the magnetic field from zero to = 1 T, the fluorescence decay rate decreases steeply and then in

This investigation studied the effects of 50 H a electric and magnetic fields on the pulse rate of the human heart. The ECG (electrocardiograms) of 41 male volunteers were recorded with a Holter recorder. Twenty-six subjects were measured in and outside real fields, and 15 subjects were measured in

The effect of a magnetic field on the escape of alkoxyl radicals from the solvent ca8e in n-propanol at 213 I< has been investigated. The alkoxyl radicals were obtained by photooxidation of n-propanol with the aid of p-beruoquinone m the triplet state. The radicals that escaped from the cage were tr