We humans are funny creatures. We use words that sometimes convey, in subtle ways, misleading meaning. Instead of talking about “seeing” light (here and now), we have a verb, “looking”, suggesting that it is our act of turning and focusing our eyeballs that somehow does something. Some natural philosophers in the distant past went so far as to suggest that the act of looking implies something coming out of our eyeballs to sense distant things. If that were the case, we would indeed be “looking into the past” when we shift our gaze at that distant star in the sky. But today we know better. We may say that we “look” but we actually only just “see”: we are passive participants, receptors for those photons that were emitted some time ago.
the practise of meditation techniques [13], [14], [15], [16] or the intention of imagining light [17], [18], [19] on the UPE emission has been studied. Particularly interesting are the works of Wijk et al. regarding the study of the meditation influence on UPE [13], [14], [15], [16]. They found that the UPE intensity from the volunteers who practised transcendental meditation was lower than that of volunteers who neither practised meditation nor any other relaxation technique. According to these authors, this agrees with the fact that the stress is connected to an increased production of ROS, which could explain the lower UPE intensity in the subjects who practised relaxing transcendental meditation [14], [15], [16]. However, although the negative and fake emotions suppose internal personal states of great clinical and forensic interest, those have never been related to UPE spectral variations.We hypothesized that the UPE spectra of an individual should change when stimulating a negative emotional state, like anger, in comparison with a relaxed state. To obtain spectral profiles, in our research group we recently tested an electron multiplying CCD (EMCCD) camera with a liquid crystal tuneable filter (LCTF) as transmission monochromator [20].
yes anger emits energy for sure!!
For measuring the anger self-stimulation states, each volunteer was asked to be angry by frowning and making angry faces while thinking about personal very upsetting things or events. The researchers helped triggering and maintaining the volunteers in the anger states by making annoying knocks and noises during the UPE measurements. These noises were provoked by friction of a metallic box (about 36 × 20 × 14 cm3) in the outside part of the wall and the door of the room where the subject was measured.
In addition, a region of interest (ROI) of each image was selected by using a rectangular shape involving the upper body (torso) of the person (Fig. 1). This selection was made in order to straightforwardly avoid the non-silhouettes regions, thus improving the quantitative determination of the UPE from each person. The UPE intensity average and standard deviation from the ROI pixels were then calculated. The average UPE intensity values for the relaxed vs angry subjects’ states were compared together with the background’s intensity.
As a consequence of their findings they proposed that the
photochemical source of retinal discrete noise, as well as retinal phosphenes, may originate from natural bioluminescent photons within the eyes (Bokkon, 2003, 2005, 2008, 2009).
https://arxiv.org/vc/arxiv/papers/1012/1012.3371v1.pdf
Neuroscientists or brain specialists record the EEG diagrams of their patients when their eyes are closed, because when their eyes are open the amplitudes of diagrams dramatically would be reduced and they cannot diagnose changes in the amplitudes. In Figure 5 we represent the EEG diagrams of a person with different situations as explained in the caption to the figure. When the eyes
are opened, the number of interacting photons with the biomolecules becomes high and the amplitudes of EEG become low. It is clear when the intensity of incident light is high; it must produce more action potentials than low intensity light. In classical physics, it is argued that this situation is because the superposition of several waves tends to decrease the amplitude of the total wave. This argument ignores the intensity of the incident light entering the eye. This classical argument also cannot explain when and how the synchronization happens in order to decrease the amplitude of EEG.
When the eyes start to be opened, the incident numbers of photons into the eyes increases and according to our diagrams in previous sections the amplitudes are reduced. So far we have not been able to find an exact relation between the EEG diagrams and the fluctuation function, but the synchronous and coherent vibrations of billions electric dipoles of biomolecules cannot be ignored in the EEG diagrams. MTs are particularly numerous in the brain where they form highly ordered bundles and are the best candidate for long coherence and large synchrony (Hameroff and Penrose, 1996). The argument for connection between Alpha-EEG diagrams and MTs activity is their similar behavior in increasing and decreasing of amplitudes of fluctuation function for MTs and potential difference in EEG in response to the intensity of photons. This similarity during opening and shutting of the eyes indicates a significant relation between the EEG diagrams and the fluctuation function. Obtaining a mathematical relation between fluctuation function in MTs and potential difference in neurons can be an interesting subject of our future research.
The amplitude increment of EEG is probable after a small time after the opening of the eyes, because the pupil reflects against the sudden light and forbids the photon increment and reduces photon numbers. Thus, the number of interacting photons will be reduced.
https://www.scirp.org/journal/paperinformation.aspx?paperid=113975
Increased Libido from too many biophotons in the body...
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