Essential Differences Between Coherent and Non-Coherent Effects of Photon Emission from Living Organisms

Popp, Fritz-Albert

doi:10.1007/0-387-24996-6_9

Cited by 7 publications

(10 citation statements)

References 19 publications

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“…3 Delayed luminescence is the phenomenon of photon emission by a complex living system after exposure to white light for a few seconds. 4 The photon signal is observed after a few milliseconds delay and is observable for a few minutes. The delay of few milliseconds is sufficient to eliminate the contribution of fluorescence caused by exposure to light.…”

Section: Introductionmentioning

confidence: 99%

“…The signal cannot be attributed to phosphorescence as it is observable in almost all living systems. Popp 4 and Bajpai et al 5 have developed a method for determining holistic attributes of living systems. A living system is stimulated by visible light for few seconds and the delayed luminescence emitted by the system is measured after of 10 ms using a photomultiplier detector (PMS) sensitive in the range of 300-850 nm.…”

Section: Introductionmentioning

confidence: 99%

“…Bajpai has shown that the shape of the signal in the damped harmonic oscillator model of Popp can be analyzed in terms of four parameters: B 0 , B 1 , B 2 and t 0 . I applied the methods of Popp 4 and Bajpai et al 5 for the analysis and characterization of homeopathic medicines, nonliving systems, in comparison with control globuli.…”

Section: Introductionmentioning

confidence: 99%

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Delayed luminescence of high homeopathic potencies on sugar globuli

Lenger¹,

Bajpai

Drexel³

2008

Homeopathy

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Delayed luminescence signals of Arg.met. CMf (100Mf), Canth. CMf, Bov. CMf absorbed onto sugar globuli was observed by exciting them at their known resonance frequency of 2.060 MHz. Arn. CMf also showed delayed luminescence when excited at 2.060 MHz and at 1.828 MHz. Alc. LMK (50MK) could not be excited by 2.060 MHz and showed properties of control globuli. Canth. LMK could not be excited at 2.006 MHz. The delayed luminescence signals were characterized by the coefficient B(2) typical of the delayed luminescence of non-living complex systems, and by the coefficient B(0) typical of living systems. Both coefficients can be considered as indicative of holistic quantum structures in homeopathic potencies.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Delayed luminescence of high homeopathic potencies on sugar globuli

Lenger¹,

Bajpai

Drexel³

2008

Homeopathy

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“…In biochemical systems, i.e. in tissue's homogenates, cell suspensions or cell organelles, mixtures of enzymes and substrates, chemiluminescence in most cases has an extremely low intensity, and requires particularly sensitive equipment for its detection and measurement (Popp et al, 2002). Some substances -enhancers, have the ability to essentially enhance the chemiluminescence, sometimes many thousands of times (activated, or enhanced chemiluminescence).…”

Section: Chemiluminescencementioning

confidence: 99%

Methods for Research of Effects of Device ABIEM. Applications

2019

European Journal of Medicine

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This paper presents the results of evaluation of possible biophysical methods and approaches for registering of various non-ionizing radiation (NIR) wave types of the human body in the electromagnetic range after the influence of device ABIEM (Akszjonovics, 2006). Many types of NIR (electromagnetic waves, infrared radiation, thermo radiation, bioluminescence) emitted from the human body were reviewed. In particular the results on of spontaneous biophoton emission and delayed luminescence from the human body are submitted along with infrared thermography (IRT) results. It was shown that 1 cm 2 of skin generally emits 85 photones for 1s. The intensity of biophoton emission ranges from 10 −19 to 10 −16 W/cm 2 (approx. 1-1000 photons. cm-2. s-1). The specific photon emission from part of the human thumb was detected as a spectrum of various colors after influence of ABIEM with the method of Color coronal spectral analysis (Ignatov, 2007) on a device with an electrode made of polyethylene terephthalate (PET hostafan) with applied electric voltage 15 kV, electric impulse duration 10 s, and electric current frequency 15 kHz. It was established that photons corresponding to a red color emission of visible electromagnetic spectrum have energy at 1.82 еV. The orange color of visible electromagnetic spectrum has energy at 2.05, yellow-2.14, blue-green (cyan)-2.43, blue-2.64, and violet-3.03 eV. The reliable result measurement norm was at E ≥ 2.53 eV, while the spectral range of the emission was within 380-495 nm and 570-750 nm±5 nm. Also were estimated some important physical characteristics (energy of hydrogen bonds, wetting angle, surface tension) of water by the methods of nonequilibrium energy (NES) and differential non-equilibrium energy (DNES) spectrum of water (Antonov, 1990; Ignatov, 1998), that helps understand in general how electromagnetic radiation interacts with water and establish the structural characteristics of water.

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“…Moreover, DNA is apparently an important source of biophoton emission, since conformational changes of DNA induced with 3,8-diamino-5-ethyl-6-phenylphenanthridinium bromide in vivo are clearly reflected by changes of photon emission in cells [40]. The physical properties of the emission are described, using the DNA molecule as an exciplex ultraviolet laser system, where a stable state can be reached far from thermal equilibrium at threshold [41].…”

Section: Biophoton Emissionmentioning

confidence: 99%

Methods For Registering Non-Ionizing Radiation Emitted From The Human Body

Ignatov¹,

Mosin²,

Niggli³

et al. 2015

European Reviews of Chemical Research

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This paper presents the results of evaluation of possible biophysical methods and approaches for registering of various non-ionizing radiation (NIR) wave types of the human body in the optic and electromagnetic range. Various types of NIR (electromagnetic waves, infrared radiation, thermo radiation, bioluminiscence) emitted from the human body were reviewed. In particular the results on of spontaneous biophoton emission and delayed luminescence from the human body are submitted along with infrared thermography (IRT) results. It was shown that 1 cm 2 of skin generally emits 85 photons for 1 s. The intensity of biophoton emission ranges from 10 −19 to 10 −16 W/cm 2 (approx. 1-1000 photons . cm -2. s -1 ). The specific photon emission from part of the human thumb was detected as a spectrum of various colours with the method of Colour coronal spectral analysis on a device with an electrode made of polyethylene terephthalate (PET hostaphan) with applied electric voltage 15 kV, electric impulse duration 10 s, and electric current frequency 15 kHz. It was established that photons corresponding to a red color emission of visible electromagnetic spectrum have energy at 1,82 еV. The orange color of visible electromagnetic spectrum has energy at 2,05 eV, yellow -2,14 eV, blue-green (cyan) -2,43 eV, blue -2,64 eV, and European Reviews of Chemical Research, 2015, Vol.(3), Is. 1 5 violet -3,03 eV. The reliable result measurement norm was at E ≥ 2,53 eV, while the spectral range of the emission was within  = 380-495±5 nm and  = 570-750±5 nm. Also were estimated some important physical characteristics (energy of hydrogen bonds, wetting angle, surface tension) of water by the methods of non-equilibrium energy (NES) and differential non-equilibrium energy (DNES) spectrum of water, that helps understand in general how electromagnetic radiation interacts with water and establish the structural characteristics of water.

show abstract

Essential Differences Between Coherent and Non-Coherent Effects of Photon Emission from Living Organisms

Cited by 7 publications

References 19 publications

Delayed luminescence of high homeopathic potencies on sugar globuli

Delayed luminescence of high homeopathic potencies on sugar globuli

Methods for Research of Effects of Device ABIEM. Applications

Methods For Registering Non-Ionizing Radiation Emitted From The Human Body

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