Lab Test Report: Comparative Biophoton Emission Between Biophoton Generator and Human Adult

Date: 04-04-2022

Laboratory:  Ecole Universitarie, Bologna, Italy

Researcher(s): Mr. D. Gullà and Prof. G Pagliaro

Objective: The purpose of this experiment is to evaluate and compare the intensity of biophoton emissions from a human adult and a biophoton generator, thereby determining whether the biophoton generator emits significantly stronger biophotons than a human.

Materials and Equipment:

• Biophoton generator (Test Device)
• Vis-Infrared/biophoton-sensitive camera
• Human subject
• Dark room for controlled conditions
• Computer for image and data analysis
• Biophoton detection software

Methodology:

1. Baseline Measurement of Human Biophoton Emission:
• A human subject was seated in a controlled dark room to minimize external light interference.
• A Vis/infrared/biophoton-sensitive camera recorded the natural emission of biophotons from the human subject’s body over a duration of 10 minutes.
• Data was collected and analyzed to establish the baseline emission intensity.
2. Measurement of Biophoton Generator Emission:
• The biophoton generator was activated under the same controlled conditions.
• The camera recorded the emission of biophotons from the generator over the same duration.
• The recorded emissions were analyzed for intensity and distribution.
3. Comparative Analysis:
• The data from both sources were analyzed using biophoton detection software.
• The intensity of emitted biophotons was quantified and compared.
• Visual representation (intensity graph) was generated to illustrate the differences.

Results:

• The infrared/biophoton-sensitive camera captured distinct visual evidence of biophoton emissions from both the human subject and the biophoton generator.
• The biophoton generator emitted a significantly higher intensity of biophotons compared to the human subject.
• The emission from the human subject appeared faint and localized, whereas the generator exhibited widespread, concentrated, and much brighter emissions.
• Quantitative data confirmed that the biophoton generator’s emission at 8.2 million levels exceeded human biophoton levels of 1.3 million, almost 7 million more than an adult emitted at a short time within a small detecting window.

Conclusion: The experimental results demonstrate that the biophoton generator emits significantly stronger biophotons than a human adult. This confirms the enhanced biophoton output capability of the device, which may have implications for applications in health and wellness therapies. Further studies could explore the biological effects of exposure to high-intensity biophotons emitted by the generator.

Future Work:

• Investigate the effect of prolonged exposure to strong biophotons on biological tissues.
• Compare the generator’s emissions with other natural biophoton sources.
• Assess the therapeutic potential of high-intensity biophoton exposure.