Effect of T-Consciousness Fields on the Optical Absorbance of Materials in Different Solvents

The definition of Consciousness and its role in the universe has always been one of the most challenging issues in science. Although many theories have been proposed about this elusive phenomenon, there is no common point of view among scientists. Mohammad Ali Taheri introduced Consciousness as a fundamental element of the universe, from which matter, information, and energy originate. To distinguish this novel approach from various theories, it has been coined as T-Consciousness. In this perspective, in addition to the constant Consciousness, which is the basic constituent of this physical world, there are various variable T-Consciousness Fields (TCFs) with different functions. The aim of the present study was to determine whether TCFs, specifically four types of them, affect the interaction between matter and light. To achieve this, the effects of TCF-treated water on the absorbance of the model DPPH free radical in two solvents, water and methanol, were recorded. Additionally, we examined changes in the absorbance of the nucleobase adenine and the amino acid phenylalanine in the ultraviolet region. The results showed that under this treatment, the absorption values significantly increased for DPPH (p-value < 0.0001) and decreased for the methanol solvent (p-value < 0.0001). Similarly, in the water solvent, the molar absorption coefficient increased significantly (p-value < 0.05) for the maximum concentration of this radical. Moreover, statistically significant changes in the absorbance of adenine and phenylalanine were observed at various concentrations. In conclusion, these data provide evidence of the effects of TCFs on the optical absorbance of materials. Given the importance of the interaction between light, particularly ultraviolet spectra, and materials for understanding the development of life on early Earth, we suggest that more experiments be designed to elucidate the possible roles of these fields in this process.