Increasing use of radio, television, radar and telecommunication towers and high pressure stations has increased the amount of electromagnetic radiation in the environment [1–4].
Large amounts of magnetic radiation in the environment are generated by mobile telecommunication towers. Insects and small creatures are the first living organisms to be affected by this radiation. Some bee species are, however, becoming extinct due to not returning to their hive, which is called colony collapse disorder (CCD). Studies show that radio frequencies and electromagnetic waves have deceptive biological effects and in turn, disrupt the functioning of biological systems of living organisms and lead to their destruction [5].
If the number of masts and cell phones increases, honey bees may become extinct in the coming decades. Studies have shown that radiation at 900 MHz is very bioactive and changes the physiological function of living organisms [6]. Bees, in general, are arthropods that are key species in the ecosystem that pollinate more than 90 commercial products around the world [7]. The increase in deaths in bee colonies around the world has led to a phenomenon in which the number of bees in the hive decreases rapidly without leaving any signs of disease [8].
According to literatures, it is reported that radio frequency and electromagnetic radiation have misleading biological effects that disrupt the functioning of biological systems of living organisms [9].
However, to selectively stimulate the blue light receiver in honey bee in order to guide the bee navigation system to return to its hive and prevent the colony collapse disorder (CCD) phenomenon, high-efficiency continuous laser emission by second-harmonic line width of 456 nm Nd:GdVO4 laser is proposed. The beam is conducted By SHG process with a nonlinear crystal BiB3O6 (𝐵𝑖𝐵𝑂) under laser diode 880 nm pumping with emission level of