Radiolysis is the dissociation of molecules caused by ionizing radiation. The high-energy flux results in cleavage of one or more chemical bonds. Radiolysis is distinguished from other dissociations by the type of radiation involved: it is not photodissociation using lower-energy ranges of the electromagnetic spectrum or other high-energy processes such as an electric discharge. The chemistry of concentrated solutions under ionizing radiation is extremely complex. Radiolysis can locally modify redox conditions, and therefore the speciation and the solubility of the compounds.
Radiolysis is the dissociation of molecules caused by ionizing radiation. The high-energy flux results in cleavage of one or more chemical bonds. Radiolysis is distinguished from other dissociations by the type of radiation involved: it is not photodissociation using lower-energy ranges of the electromagnetic spectrum or other high-energy processes such as an electric discharge. The chemistry of concentrated solutions under ionizing radiation is extremely complex. Radiolysis can locally modify redox conditions, and therefore the speciation and the solubility of the compounds.
==Water decomposition== Of all the radiation-based chemical reactions that have been studied, the most important is the decomposition of water. When exposed to radiation, water undergoes a breakdown sequence into hydrogen peroxide, hydrogen radicals, and assorted oxygen compounds, such as ozone, which when converted back into oxygen releases great amounts of energy. Some of these are explosive. This decomposition is produced mainly by alpha particles, which can be entirely absorbed by very thin layers of water.
Discovered by embedding cosine similarity (sentence-transformers MiniLM, 384-dim).