The experimental data observation confirms the existence of two different populations in liquid water. They are divided by an energy gap which does not depend on the temperature but only by their electrodynamic properties. Their number is subject to a summation rule, i.e. one increases at expenses of the other, in case of an external perturbation (temperature, solutes). Their spatial organization follows the principle of self-similarity, that is, it is the same at all observation scales. These properties make water a fluid with unique characteristics in the biological field.
On the necessity of two-fluid structure for liquid water / De Ninno, A.; Nikollari, E.; Frezza, F.. - (2023). (Intervento presentato al convegno International Workshop The Powerful Development of Water Sciences and Bioelectromagnetics tenutosi a Roma).
On the necessity of two-fluid structure for liquid water
F. Frezza
2023
Abstract
The experimental data observation confirms the existence of two different populations in liquid water. They are divided by an energy gap which does not depend on the temperature but only by their electrodynamic properties. Their number is subject to a summation rule, i.e. one increases at expenses of the other, in case of an external perturbation (temperature, solutes). Their spatial organization follows the principle of self-similarity, that is, it is the same at all observation scales. These properties make water a fluid with unique characteristics in the biological field.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
