We review in this paper the use of the theory of scale relativity and fractal space-time as a tool particularly well adapted to the possible development of a future genuine systems theoretical biology. We emphasize in particular the concept of quantum-type potentials, since, in many situations, the effect of the fractality of space—or of the underlying medium—can be reduced to the addition of such a potential energy to the classical equations of motion. Various equivalent representations—geodesic, quantum-like, fluid mechanical, stochastic—of these equations are given, as well as several forms of generalized quantum potentials. Examples of their possible intervention in high critical temperature superconductivity and in turbulence are also ...
24 pagesInternational audienceWe have demonstrated, using the Cantor dust method, that the statistic...
Biological systems are dynamical, constantly exchanging energy and matter with the environment in or...
Quantum physics and biology have long been regarded as unrelated disciplines, describing nature at t...
In this paper we present a review of progress in addressing the challenge to understand and describe...
In the theory of scale relativity, space-time is considered to be a continuum that is not only curve...
Particular aspects of large-scale quantum effects in biological systems, such as biopolymers and als...
Systems Biology (system-level understanding in biological science), from the physical-chemical point...
The relation between quantum-mechanical concepts and biological systems is explored by studying the ...
This book provides a comprehensive survey of the development of the theory of scale relativity and f...
Quantum mechanics is traditionally associated with microscopic systems; however, quantum concepts ha...
We have demonstrated, using the Cantor dust method, that the statistical distribution of appearance ...
We clarify what it means to have a spacetime fractal geometry in quantum gravity and show that its p...
In this paper we analyze some dynamical systems, whose motion is not on continuous path, but on a fr...
Probabilistic formalism of quantum mechanics is used to quantitatively link the global scale mass po...
In classical concepts, theoretical models are built assuming that the dynamics of the complex system...
24 pagesInternational audienceWe have demonstrated, using the Cantor dust method, that the statistic...
Biological systems are dynamical, constantly exchanging energy and matter with the environment in or...
Quantum physics and biology have long been regarded as unrelated disciplines, describing nature at t...
In this paper we present a review of progress in addressing the challenge to understand and describe...
In the theory of scale relativity, space-time is considered to be a continuum that is not only curve...
Particular aspects of large-scale quantum effects in biological systems, such as biopolymers and als...
Systems Biology (system-level understanding in biological science), from the physical-chemical point...
The relation between quantum-mechanical concepts and biological systems is explored by studying the ...
This book provides a comprehensive survey of the development of the theory of scale relativity and f...
Quantum mechanics is traditionally associated with microscopic systems; however, quantum concepts ha...
We have demonstrated, using the Cantor dust method, that the statistical distribution of appearance ...
We clarify what it means to have a spacetime fractal geometry in quantum gravity and show that its p...
In this paper we analyze some dynamical systems, whose motion is not on continuous path, but on a fr...
Probabilistic formalism of quantum mechanics is used to quantitatively link the global scale mass po...
In classical concepts, theoretical models are built assuming that the dynamics of the complex system...
24 pagesInternational audienceWe have demonstrated, using the Cantor dust method, that the statistic...
Biological systems are dynamical, constantly exchanging energy and matter with the environment in or...
Quantum physics and biology have long been regarded as unrelated disciplines, describing nature at t...