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Mesofractal Modeling of Biosystems & Organic Spintronics
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Submitted:
04 August 2024
Posted:
06 August 2024
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Abstract
Mesoscopic modeling of complex system involve thermodynamic nonequilibrium of discrete scaling. Furthers from quantum correlation on a chip retrieved quantum nonlinear optics with single photons enabled by strongly interacting atoms. Accompanied by mesofractals as development of meso & micro size fractal structures is required to mimic various biological systems for various functions. Showed through fluorapatite in gelatin-based nanocomposite, fractal in DNA knots driven by balance of fission & fusion in mtDNA/mitochondrial DNA mechanism, for optical engines for light energy detection described the proportional integral derivative [PI(D)]-controller set in microbial cells to HCCI/Homogeneous Charge Compression Ignition.
Keywords:
Subject: Physical Sciences - Biophysics
Introduction
Mesoscopic modeling of complex systems involves thermodynamics nonequilibrium of discrete scaling of entropy reduction + fluctuation, nonlinear dynamics & complexity of self-organized spatio-temporal structure [1] . Electron exchange & electron- or photo-triggered electron exchange which are two central topics in related fields of molecular magnetism & molecular spintronics through control of an external (optical, redox and/or magnetic ) properties in the use of several physics (spectroscopic, magnetic, electrochemical and/or photochemical)[2].
Obeys analytical studies of common mechanism of previously named “spinterface” have been forecasted through “mesoscopic physics of electrons & photons” from E. Ackermans & Gilles Montambaux of e.g. the ability to control spin polarization [3] coincides with electromechanical coupling effect between electric polarization & mechanical strain gradient [ to mechanical disturbance that propagates in HF Olster, 1967 ]. Furthers from quantum correlation on a chip [Ranojoy Bose, et.al., 2012 ] those were retrieved quantum linear optics with single photons enabled by strongly interacting atoms provided by Peyrone,there was to concludes above subject to mesoscopic entanglement [4].
Mesofractal and DNA
Accompanied by mesofractals as “development of meso & micro size fractal structures is required to mimic various biological systems for various functions. Meso & micro sized fractal are fabricated by several process in engineering”[5], where we have sought ‘mechanical stress mechanisms in the cell [6] flows & percolation accomplishes.
On extensive data sets of fractal fluctuations in Human DNA base CG concentration/10bp(base pairs), the predicted distribution is close to the Gaussian distribution for small-scale fluctuations, but exhibits fat long tail for large-scale fluctuations [7].Fractal in DNA knots driven by balance of fission & fusion in mitochondrialDNA.Fractal characteristics also depicted in fluorapatite gelatin-based nanocomposite.
Ever explained :”a useful concept for ecology & sustainability” of efficiency = 1 – [T(o)/T]: “the principles of sustainability to human activities ultimately must result in the scrutiny of all sectors activity to asses the changes required to provide for a high quality of life for future generations”[8].
Organic Spintronics & PI(D)
Involve the CFD/Computational Fluid Dynamics and HCCI/Homogeneous Charge Compression Ignition, ever defined whereas “ignition model engine” popularly known as a model device diesel engine [9], retrieved the “Laser Doppler Velocimetry/LDV” we intend to compare to Linear Variable Differential Transducer/LVDT includes sensor technology as well as to PVDF.polyvynilidine fluoride comprise giant fluxoelectric in α-phase of PVDF [10]. Further, we guided to properties depict by linear variable differential with PID/the proportional integral derivative [PI(D)]- controller are set in such a using test the best comparison between rising time, overshoot & setting time obtained in the motor response. [The control system being used on FTU Plant is formed by a PXI EC-based platform supervise to[11].
Also offered the spintronics using of “PI(D)-controller, from Microbial Cell to the Motor Response in Plasma Heating”, spintronics theirselves involved in the study of active control & manipulation of spin degrees of freedom in solid-state system, we comprise in weight spin relaxation & dephasing are process that guides “equilibration”[12].
We intended to accomplish the HCCI quoted in two & three characters seems twin-compared Homogeneous Charge Compression Ignition viewed through IceCube Document Project held since Oct 11, 2001 ever concluded as “saw none” so they can be followed the ITER/International Thermonuclear Experiment Reactors to IFMIF/International Fusion Materials Irradiation Facilities.
Refer to ”magnetic quantum-dot cellular automata which is nonvolatile & lower power consist of nanomagnets. Since they are magnetically coupled, logic can be peformed by switching an input nanomagnet which causes a chain reaction of switching on the other element in a domino fashion”[13].
For disproportionation of H2O2 we also considers an electrokinetic mechanism they appears. So far, the more efficient micro/nanoscale motors are derived from biological systems [14].Besides, a control experiment using three stripped Au/Pt/Au rods with catalyzed the composition of H2O2 are at similar rate” [15].
Conclusions
From a study of building meso fractals, the fractal & mesofractal application to organic spintronic if he related to PI(D) have been extended, at least ranging from DNA knots in mitochondrial fission & fusion mechanism, with some explanation to organic magnetism, quantum optics & optical engine.
References
- Zhonghuai Hou: “Nonlinear Dynamics & Nonequilibrium Thermodynamics in Mesoscopic Chemical Systems”.
- Maria Castellano-Sanz: “Oxamato-based dicopper(II) metalla cyclophanes as Prototype of Magnetic Device for Molecular Spintronics”, Dissertation, 2013.
- WJM Naber, Sanli Faez & WG van de Wiel: “Organic Spintronics”, arXiv:cond-mat/0703455v1[cond-mat.mes.hall], Marc 19, 2007.
- Tudejo & Porras:”Mesoscopic entanglement induced by spontaneous emission in solid state quantum optics”, PhysRevLett, 110(?), 080502.
- Kale & Bhole: “Parametric analysis for forming meso fractals from nanoparticle seeded resin in Helle-Shaw cell”. [CrossRef]
- Davies & Tripathi:”Mechanical stress mechanisms in the cell”.
- Mary Selvam: “Fractal Fluctuations & Statistical Normal Distributions”, manuscript.
- Kibert, Sendzimir & Guy:”Construction ecology & metabolism”, CM&E, vol 18, 2000.
- Marcin Frackowiak: “Modelling & Diagnostic Study of Flow in an Optical Engine with Negative Valve Overlapping for HCCI”, Dissertation ( 2009 ).
- Xiaoning Jiang, et.al: “Flexoelectric Nano-Generator: Materials, Structures & Devices”. [CrossRef]
- Claudio Destri:”Evaluations of the High Density Plasma Heating through O-X2 mode…”.
- Zutic, et.al.: “Spintronics, Fundamental & Applications”, arXiv:cond-mat/0405528v1 [cond-mat.other] 21 May 2005, p 19.
- J; Angele Klemm: “Fabrication of Magnetic Tunnel:Junction-based Spintronic Device”.
- M. Schliwa (ed.):”Molecular Motors”, 2003.
- WF Paxton:”Catalytic Nanomotors”,2004.
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