theory of coupled electromagnetic circuits and the relevance of their resonances in chronobiology in...
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![Page 1: Theory of coupled electromagnetic circuits and the relevance of their resonances in chronobiology In honor of the 90 th birthday of Franz Halberg W. Ulmer](https://reader036.vdocuments.mx/reader036/viewer/2022062802/56649e8f5503460f94b93618/html5/thumbnails/1.jpg)
Theory of coupled electromagnetic circuits and the relevance of their resonances in chronobiology
In honor of the 90th birthday of Franz HalbergW. Ulmer – Corresponding member of MPI of Physics Göttingen Germany
Problems – summary:Day-night rhythm by external visible light: Excitation of tryptophan and metabolism of tryptophan – serotonin – melatonin. This is only on surface (skin) possible:Lifetime of singlet transitions: 10-8 sec; lifetime of triplets: seconds, minutes,…..Each cell shows ultraweak bioluminescence (uwb):
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Problems – summary: In darkness ultraweak bioluminescence (uwb) exists in each cell
• Intensity of wavelengths is only depending on biorhythm (circadian, circaseptan, etc).
• Mechanism: Excitations by several steps by ATP – (GTP) decay (0.5 eV) – pumping mechanisms.
• Receptors: tryptophan – serotonin – melatonin (singlet – triplet transitions).
• Coupling to DNA and role of neurotransmitters. • Every charge distribution of biomolecules (and
even a cell) represents a capacitance. Transitions represent currents – inductivitances (magnetic fields). This view goes back to Heisenberg. Recent developments: molecular electronic devices.
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Basic princple: One electric oscillator with L: inductivitance (solenoid) and C: capacitance (condensator); electric charge: Q, current: Q/dt
L C
LC/1
frequencyResonance2
0
0//
equationBasic22 CQdtQLd
t)0cos(ω0QQ:Solution
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Two coupled electrical resonators via magnetic interactions M of the currents (right) -
mechanical analogon: two pendula coupled by a spring (left)
M1 M2
spring
L C
M
CL
CML
CML
)/(1
)/(12
2
2
1
t)cos(ω20Q2Q
t)cos(ω10Q1Q
2
1
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Three identical oscillators with magnetic coupling Mvia currents between different states
M
M
CML
CML
LC
Solutions
)/(1
)2/(1
0) M (if/1
:
23
22
21
20
t)cos(ω30QQ
t)cos(ω20QQ
t)cos(ω10QQ
3
2
1
3
2
1
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Resonator with dielectric coupling: Instead of the mutual inductivitance M a mutual capacitance is used to couple the two resonators - Basic equations and solution methods are always equivalent
L1
L2
C1 C2
C12
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Carrier waves and beat frequencies by superpositions of different solutions (modes) of two resonators
tt 21 ;
)cos()cos(2)cos()cos(
)cos()sin(2)sin()sin(
:ryTrigonomet
)sin()cos();sin()cos(
;
22222121121111
212211
tqtqqtqtqq
QQqQQq
)cos()()cos()cos(2
)sin()()cos()sin(2
211122211
221222221
2121
2121
tqqq
tqqqqtttt
tttttotal
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Two coupled resonators: Resonance time T from the difference values (beat frequency) ω’2 = 2 π/T= (ω∙ 1-
ω2)/2 – narrow intervals for circadian, etc.
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Number of beat resonance time intervals T with T1 and T2 < =10 sec; ω1 = 2 π/T1 and ω∙ 2 = 2 π/T2∙
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Two coupled resonators: Resonance time T from the difference values (beat frequency) ω’2 = 2 π/T= (ω∙ 1-
ω2)/2 – wide intervals for circadians, etc.
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Two coupled resonators show: Numerous beat frequencies may be candidates to provide independently circadian,
circasemiseptan, circaseptan, ….,etc.Principal question: who is the CONDUCTOR in a cellular system to select particular resonance times/periods? In chronobiology, the scientific work of Franz Halberg
represents the role of a ‚music director‘In a cellular/ molecular biological level synergetic
phenomena should lead to such a selection: 1. Physical term schemes of biomolecules - production of
singlet – triplet resonances via external light and ultraweak bioluminescence (DNA, RNA, tryptophan, serotonin,
melatonin) , configurations (charge distributions) of different states by double resonances between molecules.
2. Influence of the geomagnetic/solar magnetic field to charged molecules and ions such as Mg-ATP-protein
complexes and hydrolysis of ATP via Ca ions
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Characteristic term scheme: Solid arrows: allowed transitions - dashed arrows: forbidden transitions from singlet ground state
1. Singlet double resonance (E) 2. Singlet – triplet transitions from the excited singlet state (allowed) 3. Triplet – triplet transitions and
cascades (long lifetime: seconds, minutes, hours, etc. )
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More complex (realistic systems): I. Two electrical resonators (circuits) are coupled via a further resonator
L L
L2
C C C2
M M
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II. Three different circuits are mutually coupled via magnetic interactions (currents)
L1
C1
L2
C2
L3
C3
M12
M23
M13
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Generalization to three or more coupled resonators[couplings via electric (dielectricum) or magnetic interaction]
2/)(';2/)(
2/)(';2/)(
2/)(';2/)(
2/)(';2/)(
32233223
31133113
21122112
lkkllkkl
)sin()()cos()(
)'cos()sin()'cos()cos(
12
4
2
211
4
2
1
3
1 4,1
12
3
1 4,1
11
tqqtqq
ttqttqq
k
k
kk
k
k
kl
k kl
klkl
k kl
kltotal
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Three/four coupled oscillators can simultaneously produce ‚beats‘: 3 and 4 periods of chronobiology
Number of necessary conductors is drastically reduced
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Periodic system of resonators – simplified application to double-stranded DNA chains - Beat intervals: ca. 1 –
3.5 – 7 days
Position n
LC
Position n - 1
LC
Position n +1
LC
M M
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Periods of ATP –metabolism supported by the resonances: Geomagnetic and solar magnetic field (Ca and Mg) and
ultraweak bioluminescence
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DNA (section): H bonds (protons) represent mutually coupled currents (inductivitances) and the charge
distributions at the corresponding bases (A , T, G, C) are capacitances of resonators
A
T
G
C
C G
H bonds
Large manifold ofmagnetically coupled resonators: weak couplings between not neighbouring proton bonds yielding highly nonlocal effects and time periods (‚beat frequencies‘)
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Conclusions and relevance to chronobiology:1. Conductor of beats/carrier waves:
2. Reduction of resonances by coupled complex systems3. Diffusion of metallic ions in magnetic fields
(role of Ca and Mg ions in ATP-protein complexes)4. Skin surface (external light, day and night)5. Ultraweak bioluminescence (role of ATP)
6. Proton bonds (H bonds) between DNA base pairs and resonances by nonlocal influences – Calculation of the
magnetic coupling between different base pairs (very weak and decreasing with distances provides rhythms of ca. 1 day,
3.5 days and 7 days
,...)3,2,1(0
n
cMn
Bq
n