CIFRA, M., et al. Biophotons, coherence and photocount statistics: A critical review. Journal of Luminescence. 2015, 164 38-51. ISSN 0022-2313. DOI 10.1016/j.jlumin.2015.03.020.
Biological samples continuously emit ultra-weak photon emission (UPE, or “biophotons”) which stems from electronic excited states generated chemically during oxidative metabolism and stress. Thus, UPE can potentially serve as a method for non-invasive diagnostics of oxidative processes or, if discovered, also of other processes capable of electron excitation. While the fundamental generating mechanisms of UPE are fairly elucidated together with their approximate ranges of intensities and spectra, the statistical properties of UPE are still a highly challenging topic. Here, we review claims about nontrivial statistical properties of UPE, such as coherence and squeezed states of light. After the introduction to the necessary theory, we categorize the experimental works of all authors to those with solid, conventional interpretation and those with unconventional and even speculative interpretation. The conclusion of our review is twofold; while the phenomenon of UPE from biological systems can be considered experimentally well established, no reliable evidence for the coherence or nonclassicality of UPE has actually been achieved up to now. Furthermore, we propose perspective avenues for the research of statistical properties of biological UPE.
eng
dc.format.mimetype
application/pdf
dc.language.iso
eng
dc.publisher
Elsevier
dc.relation.ispartof
Journal of Luminescence
dc.subject
Ultra-weak photon emission
eng
dc.subject
Chemiluminescence
eng
dc.subject
Photocount statistics
eng
dc.subject
Coherence
eng
dc.subject
Squeezed states
eng
dc.title
Biophotons, coherence and photocount statistics: A critical review