Are Radionics and Quantum Physics related?

We deeply believe that there is a strong connection between radionics and quantum physics.

This idea is based on the fact that both fields deal with the nature of energy and the interconnectedness of the universe. The subtle energy fields that radionics practitioners work with may be related to the quantum field, and that the principles of quantum mechanics may help to explain the mechanisms behind radionics.

Here are a few examples of how radionics has been linked to quantum physics:

Entanglement: One of the key concepts in quantum physics is entanglement, which refers to the phenomenon where two particles can become linked in such a way that the state of one particle affects the state of the other, regardless of the distance between them. Some researchers have suggested that radionic devices may work through a similar mechanism, by establishing an energetic connection between the device and the target subject.

Non-locality: Another concept in quantum physics is non-locality, which refers to the idea that particles can be connected in ways that transcend traditional notions of space and time. Some radionic practitioners have suggested that their devices can work non-locally, by tapping into a universal energy field that transcends physical space.

Resonance: Quantum physics also involves the concept of resonance, which refers to the ability of one object to vibrate in sympathy with another object. Radionic devices work through a similar principle, by creating a resonance with the target subject and thereby affecting its energy field.

Information transfer: Finally, quantum physics has also been connected to the idea of information transfer, which refers to the ability of particles to carry information from one place to another. Radionic devices do transfer information from a sample of the target subject to the device, and vice versa.