Solitons in one dimensional molecular chain by far infrared excitation

Author

Kaixi, Zhang ; Jiawu, Quan

Author_Institution

Dept. of Phys., Hebei Normal Univ., China

fYear

1996

fDate

12-15 Aug 1996

Firstpage

281

Lastpage

284

Abstract

Using far infrared absorption spectra, the methods of soliton theory are applied to investigating one of the central issues of bioenergetics to explain the reasons for the high efficiency of transfer of energy within the confines of one macromolecule and between molecules. The results show that solitons may be excited only by local effect, the energy released during a fluctuation (such as dispersion of biological plasma) taking place at the end of a molecular chain will form a soliton, and solitons would be important to seek the cause of a cancer cell possessing anomalous transport effects

Keywords

biomolecular effects of radiation; cellular effects of radiation; infrared spectra; solitons; anomalous transport effects; bioenergetics; biological plasma dispersion; cancer cell; energy released; far infrared excitation; fluctuation; local effect; molecular radiation biology; one dimensional molecular chain solitons; soliton theory methods; Bonding; DNA; Frequency; Hydrogen; Infrared spectra; Peptides; Physics; Plasma confinement; Proteins; Solitons;

fLanguage

English

Publisher

ieee

Conference_Titel

Millimeter Wave and Far Infrared Science and Technology, 1996. Proceedings., 4TH International Conference on

Conference_Location

Beijing

Print_ISBN

0-7803-3619-4

Type

conf

DOI

10.1109/ICMWFT.1996.574872

Filename

574872