Recent data show that microwaves (MW) and extremely low-frequency (ELF) magnetic fields at low intensities affect conformation of nucleoids in bacterial E. coli cells and human lymphocytes. Experimental data suggest that magnitude of the effects of both MW and ELF depend on frequency and static magnetic field. We have previously proposed the physical model for the effects of combined ELF/static magnetic fields on the charged DNA-domain/nucleoid. In this article, we present the model of slow non uniform rotation of the charged DNA-domain/nucleoid for the combined effects of MW and static magnetic field. The solution of this model suggests that the combined action of MW and static magnetic field results in slow non uniform rotation of nucleoid with angular speed that depends on Larmor frequency. The model predicts that non thermal effects of MW are dependent on carrier frequency and also static magnetic field in the area of exposure.

中文翻译：

---

微波与静磁场联合作用的机理：带电核的慢速非均匀旋转

最近的数据表明，低强度的微波 (MW) 和极低频 (ELF) 磁场会影响细菌大肠杆菌细胞和人类淋巴细胞中类核的构象。实验数据表明，MW 和 ELF 的影响大小取决于频率和静磁场。我们之前已经提出了组合 ELF/静态磁场对带电 DNA 域/类核的影响的物理模型。在本文中，我们提出了带电 DNA 域/类核的缓慢非均匀旋转模型，用于 MW 和静磁场的组合效应。该模型的解表明 MW 和静磁场的共同作用导致类核缓慢非均匀旋转，角速度取决于拉莫尔频率。