Plausible photomolecular effect and microwave in phase transition of water as a New Dawn for Renewable Energy and Ensemble-Holistic approach to Health Management

Authors

Victor Christianto
Florentin Smarandache, University of New MexicoFollow

Document Type

Article

Publication Date

2024

Abstract

Interaction among light and water molecules have baffled scientists for many decades, and even centuries. In this regards, photons in the visible spectrum, where bulk water normally doesn't absorb light, can surprisingly cleave off large water clusters from the water-vapor interface, according to a recent study by Tu and Chen (2023). This discovery, termed the "photomolecular effect," opens exciting possibilities for not only revolutionizing renewable energy but also paving the way for a more integrated-ensemble approach to health management (cf. Smarandache & Christianto, 2010; Tu & Chen, 2023; Tu et al., 2024). In a sense, other than with green or red LED, we can also introduce lowintensity laser to alter water molecule, as we discussed earlier in this journal (cf. Christianto, Chandra, Smarandache, 2023a; 2023b).

Publication Title

BPAS Chemistry

First Page

1

Last Page

8

Keywords

photomolecular effect, microwave, alternative technology to harmful 5G and 6G, EMF, Ensemble learning approach

Recommended Citation

Christianto, Victor and Florentin Smarandache. "Plausible photomolecular effect and microwave in phase transition of water as a New Dawn for Renewable Energy and Ensemble-Holistic approach to Health Management." BPAS Chemistry (2024): 1-8. https://digitalrepository.unm.edu/math_fsp/691

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.