Jack Tuszyński Explained

Jack Tuszyński (born 1956) is a Polish professor of oncology and physicist.

Biography

Tuszyński graduated with a master's degree in physics from the University of Poznań in 1980 and obtained his PhD in condensed matter physics three years later from the University of Calgary. He became a postdoctoral fellow at the chemistry department the same year. From 1983 to 1988 he worked at the Department of Physics of the Memorial University of Newfoundland, then worked in the same department at the University of Alberta for two years. From 1990 to 1993 he was promoted to associate, then full professor, and as of 2005 became Allard Chair of the Cross Cancer Institute. He also served in a Division of Experimental Oncology[1] and is an editor of such journals as the Journal of Biological Physics, Research Letters in Physics and many others which brought him an h-index of 32 as of 2014.[2]

Tuszyński was part of a team of researchers who found that anesthetic drugs allow cell microtubules to re-emit trapped light in a much shorter time than originally thought. They found that light caught inside an energy trap was re-emitted after a delay, and they propose that this process might be explained through quantum laws, with superradiance being investigated as one possibility. With the use of an anesthetic, however, this delay was considerably shorter. The process of consciousness may be behind the delay.[3] A later study from 2024 confirmed the quantum effect called superradiance in a network of tryptophans, which are found in microtubules.[4] [5]

See also

Notes and References

  1. Web site: Jack Tuszyński. December 18, 2013.
  2. Web site: Jack Tuszyński. Google Scholar. January 1, 2014.
  3. https://futurism.com/human-consciousness-quantum-physics "Experiment suggests that consciousness may be rooted in quantum physics: Is this where "consciousness begins?"
  4. Web site: Quantum fiber optics in the brain enhance processing, may protect against degenerative diseases . eurekalert.
  5. Ultraviolet Superradiance from Mega-Networks of Tryptophan in Biological Architectures . 2024 . 11075083 . Babcock . N. S. . Montes-Cabrera . G. . Oberhofer . K. E. . Chergui . M. . Celardo . G. L. . Kurian . P. . The Journal of Physical Chemistry B . 128 . 17 . 4035–4046 . 10.1021/acs.jpcb.3c07936 . 38641327 .