H. Klima scite author profile

The ultraweak and induced photon emission were measured by a single photon counting equipment (Photomultiplier Hamamatsu R562) on Cucurbita pepo variaca styriacae after wounding. Wounding significantly changes the emission from a stationary to a nonstationary state and the shape of the decay curve obtained after light illumination. The rise in the ultraweak photon emission depends on the kind of wounding and its localization on the plant. The decay curves obtained after wounding could be better fit by an exponential function than by a hyperbolic one. So the biophoton emission correlates with physiological and bioelectrical changes like membrane depolarizations as they also depend on the kind of injury.

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Indications of Optical Coherence in Biological Systems and Its Possible Significance

Popp²,

Nagl

et al. 1983

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Spontaneous Ultraweak Photon Emission from Biological Systems and the Endogenous Light Field

Schwabl¹,

Klima

2005

Complement Med Res

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Still one of the most astonishing biological electromagnetic phenomena is the ultraweak photon emission (UPE) from living systems. Organisms and tissues spontaneously emit measurable intensities of light, i.e. photons in the visible part of the electromagnetic spectrum (380-780 nm), in the range from 1 to 1,000 photons × s-1 × cm-2, depending on their condition and vitality. It is important not to confuse UPE from living systems with other biogenic light emitting processes such as bioluminescence or chemiluminescence. This article examines with basic considerations from physics on the quantum nature of photons the empirical phenomenon of UPE. This leads to the description of the non-thermal origin of this radiation. This is in good correspondence with the modern understanding of life phenomena as dissipative processes far from thermodynamic equilibrium. UPE also supports the understanding of life sustaining processes as basically driven by electromagnetic fields. The basic features of UPE, like intensity and spectral distribution, are known in principle for many experimental situations. The UPE of human leukocytes contributes to an endogenous light field of about 1011 photons × s-1 which can be influenced by certain factors. Further research is needed to reveal the statistical properties of UPE and in consequence to answer questions about the underlying mechanics of the biological system. In principle, statistical properties of UPE allow to reconstruct phase-space dynamics of the light emitting structures. Many open questions remain until a proper understanding of the electromagnetic interaction of the human organism can be achieved: Which structures act as receptors and emitters for electromagnetic radiation? How is electromagnetic information received and processed within cells?

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Simultaneous detection of native and luminol-dependent luminescence of stimulated human polymorphonuclear leukocytes

Roschger

Graninger

Klima

1984

Biochemical and Biophysical Research Communications

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H. Klima

Biophotons, microtubules and CNS, is our brain a “Holographic computer”?

Ultraweak and Induced Photon Emission After Wounding of Plants

Indications of Optical Coherence in Biological Systems and Its Possible Significance

Spontaneous Ultraweak Photon Emission from Biological Systems and the Endogenous Light Field

Simultaneous detection of native and luminol-dependent luminescence of stimulated human polymorphonuclear leukocytes

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