The Behavior of Water in Basic Sciences and its Applications after Hydrogen Bond Dissociation
Sunao Sugihara* and Hiroshi Maiwa
Published: March 22, 2022
Abstract
It is said that water we use in daily life insists on several molecules connected with hydrogen bonding. However, the quantum dynamics of water after hydrogen-bond dissociation has not been researched so far, although there are many a study of water relating to bonding with its other chemical compounds. We focus on the hydrogen bond-dissociated water supposed to possess elementary particle-like matter after high pressure of approximately 100 MPa to water. The matter in the water is described as , in which the proton and the electron exist neither separately nor forming hydrogen, and we call the quantum state the extended particle. Moreover, the particle exists for a long period stably. Here we wish to associate the macroscopic phenomena of water we usually encounter with the microscopic nature due to the function of the particle. The motivation of the research is essential to understand water from an idea of the particle. Furthermore, here, we wish to associate the usual macroscopic phenomena of water with the microscopic nature due to the function of the particle so that we can control to keep the water clean in an environment as another motivation. Furthermore, the reduction of radioactive cesium to change a stable barium atom was persuaded by taking into consideration the particle which enters into the radioactive substance. This is a breakthrough in the nuclear reaction without a huge energy outside. We discussed the mechanism of radiation reduction from a radioactive substance.