An effect of physiological stimulation on saccharomyces cerevisine was studied by different laser. The varieties of
ethanol metabolin and the multiplication of yeast and the irradiated dosages were compared under basis of two lasers
(CO2 laser and He-Ne laser). We analyse the microsopic mechanism of these effects by means of the quantum theory.
Erigeron Breviscapus is known as a natural plant medicinal material with special clinical effect. In this work, the seeds
of Erigeron Breviscapus were irradiated by He-Ne laser (632.8nm, 6mw) with different doses. Plant physiology and
biochemistry index such as total soluble sugar and chlorophyll content were analyzed one month after germination to
study the He-Ne laser effect to the Erigeron Breviscapus seeds. This work may provide the experimental basis for good
growth vigor and high yield genetic character screening of Erigeron Breviscapus treated by laser mutation breeding.
In this paper, according to Frohlich biological Bose condensation theory, the living biological system is very high
coherence system, so can think that the system is the set of some same electric dipole oscillator; and take this system as
two energy level, the two energy level model is simple and effective model for above mentioned system. On the basis of
the two energy level model of the biomolecule, the micromechananism of fluorescence effects because of laser act on
living biomolecule system was analyzed by quantum theory, the dressed stats of biomolecule in laser field was adopted
under dipole approximation. Our theoretic results can explain some corresponding experiments.
The microscopic mechanism of the electricity and thermology effects of interaction of laser with plasmalemma are
researched by electromagnetics, quantum mechanics and quantum statistics. We derived the formulas on the polarigalion
effects and "temperatue-rising effect" of laser-plasmalemma interaction. The results of our theory recherch can explain
some experiments.
C-C bond is the most common kind of interactions in biological molecules. For example, the molecules of cholesterol
and fibrinogen are connected with C-C bonds. We analysis the effect of Laser onto C-C bond in medical cure case by the
method of Intra-vascular Laser Irradiation on blood (ILIB), and in theory a new model of "Laser-(C-C)" inharmonic
oscillator is constructed on the base of quantum mechanics. Furthermore, we investigate the helpful influence of ILIB
through sixty-two cases of brain-thrombus.
With the model of harmonic oscillator in quantum mechanics, we derive the interaction equations between laser and
molecule bonds. We conclude that Laser- irradiated process can lower molecule energy level, improve the biological
activity, shorten the period of mature according to the investigation on the seed of "Sangjiao sticky rice". The technique
of Raman spectroscopy also is used to analysis the sample groups and contrast groups.
In the first place, the coherent collective vibration models of the living biological molecule system (e.g. DNA and
protion) are analyzed in this paper. Then we have analyzed yet order-disordering variance due to resonance effect and the
nonlinear behavior of terahertz radialion(THR)-biological system interaction. The analytic results show that the
interaction between the living biological system and THR can produce resonance excitation effect, and so the system can
be produced under further action of the laser. In addition, we have analyzed the nonlinear properties of the THR
bio-molecule interaction and explained the mutagenesis effects of THR. The theoretic analysis is consistent with the
results of THR biological test.
In this paper, C-C bond of fibrinogen is considered as a inharmonic oscillator system. It analyses on the interaction of laser on C-C bond of fibrinogen. It point that intra-vascular laser irradiation can reduce the fibrinogen clot in blood and improve blood flow. It is explained by quantum mechanics and simulated by Matlab. It is fit with the clinical effect.
Low-energy laser have been applied to the therapeutic test in clinics, as the intravascular laser irradiation on blood (ILIB), and it have obtained some therapeutic effects. We researched the action of the low-energy laser to the α-helix protein in theory. The result indicates that the secondary structure of the α-helix protein is possible changed by laser.
Using the method of quantum of mechanics, the functional mechanism of treatment of ILIB is analyzed. It is believed that the C-C bond in the structure of cholesterol of the red cell will be divided, the rate of cholesterol of red cell / phosphorus fat of film will be reduced, and the fluidity and the capacity of red cell's distortion will be improved, so as to improve the micro-circulation and oxygenic supply for organization. The clinic data of ILIB treatment for 25 cases of brain block support the above opinion.
Nonlinear chaotic behavior of laser-DNA interaction is analysis by means of Menikov method, frequency spectrum analysis method and Lyapunov exponent Numerical method etc. It is very useful on explanation of genetic mutagene The Department of Physics, Mengzi Teacher College, Mengzi 661100, China sis of laser.
On the basis of study on resonance exciting action of laser with chains and bonds of biomolecules the in reference damping effect of laser with biomolecules will be further analyzed and discussed using quantum mechanics in this paper.
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