Abstract
Electrosolitons that provide charge transport in biological systems (e.g., in respiratory processes) create alternating electromagnetic fields having a characteristic frequency. This frequency is determined by the soliton velocity and is in the microwave range. Because of this radiation the long‐range interaction of solitons results in the synchronization of their motion. This effect can contribute to the self‐regulation of metabolic processes in an organism. In addition, such regulation can be stimulated by external radiation with the same characteristic frequency, thus providing one mechanism to explain microwave resonant therapy.