Cell vibron polariton in the myelin sheath of nerve
Bo Song, Yousheng Shu

TL;DR
This paper introduces the concept of cell vibron polaritons in myelin sheaths, revealing their potential for bioenergy efficiency and quantum information processing within nervous cells through quantum mechanical interactions.
Contribution
It proposes the existence of cell vibron polaritons in myelin sheaths, linking quantum physics to neuroscience and suggesting new bioenergetic and quantum information applications.
Findings
Resonant self-confinement of cell-VPs in myelin under physiological conditions
Enhanced myelin permittivity due to polariton formation
Potential for quantum information processing in nervous systems
Abstract
Polaritons are arousing tremendous interests in physics and material sciences for their unique and amazing properties, especially including the condensation, lasing without inversion and even room-temperature superfluidity. Herein, we propose a cell vibron polariton (cell-VP): a collectively coherent mode of a photon and all phospholipid molecules in a myelin sheath which is a nervous cell majorly consisting of the phospholipid molecules. Cell-VP can be resonantly self-confined in the myelin sheath under physiological conditions. The observations benefit from the specifically compact, ordered and polar thin-film structure of the sheath, and the relatively strong coupling of the mid-infrared photon with the vibrons of phospholipid tails in the myelin. The underlying physics is revealed to be the collectively coherent superposition of the photon and vibrons, the polariton induced…
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Taxonomy
TopicsThermal Radiation and Cooling Technologies · Strong Light-Matter Interactions · Mechanical and Optical Resonators
