We review the brain\u27s complex dynamical organization necessary for cognition and consciousness and conclude that, rather than a linear computer of neuronal synapses, the brain seems to function more as a nonlinear spatiotemporal hierarchy of interacting, dynamically layered systems. The brain\u27s hierarchy apparently spans multiple layers covering at least 12 orders of magnitude reaching from large (nearly brain-wide, ∼10 cm), relatively slow (\u3c100 \u3eHertz, “Hz”) processes based on neuronal membranes and synaptic network activities (e.g., electroencephalography, “EEG”), downward and inward to increasingly smaller and faster molecular scales inside neurons including kilohertz (103 Hz), megahertz (106 Hz), gigahertz (109 Hz), and ter...
Proposals for quantum computation rely on superposed states implementing multiple computations simul...
AbstractThe nature of consciousness, the mechanism by which it occurs in the brain, and its ultimate...
Our brain is not a "stand alone" information processing organ: it acts as a central part of our inte...
The exploration of quantum consciousness and its implications on brain function has yielded profound...
Viewing the brain as a complex computer of simple neurons cannot account for consciousness nor essen...
Neural Coding Abstract. Quantum models of higher level brain functions such as conscious experience,...
As our knowledge of reductionist details of living systems continues to grow, the gap in understandi...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
In neurophysiology it is widely assumed that our mind operates in millisecond timescale. This view m...
There are many blank areas in understanding the brain dynamics and especially how it gives rise to c...
Biological neural networks produce information backgrounds of multi-scale spontaneous activity that ...
We study biologically ‘orchestrated’ coherent quantum processes in collections of protein microtubul...
This paper presents in details how the subjective time is constructed by the brain cortex via readin...
This paper makes two self-confessedly ambitious proposals. One is a theory of mind and world with an...
mesoscopic brain dynamics; neuropercolation; neurophenomenology; reflex arc; scale-free cortical dyn...
Proposals for quantum computation rely on superposed states implementing multiple computations simul...
AbstractThe nature of consciousness, the mechanism by which it occurs in the brain, and its ultimate...
Our brain is not a "stand alone" information processing organ: it acts as a central part of our inte...
The exploration of quantum consciousness and its implications on brain function has yielded profound...
Viewing the brain as a complex computer of simple neurons cannot account for consciousness nor essen...
Neural Coding Abstract. Quantum models of higher level brain functions such as conscious experience,...
As our knowledge of reductionist details of living systems continues to grow, the gap in understandi...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
In neurophysiology it is widely assumed that our mind operates in millisecond timescale. This view m...
There are many blank areas in understanding the brain dynamics and especially how it gives rise to c...
Biological neural networks produce information backgrounds of multi-scale spontaneous activity that ...
We study biologically ‘orchestrated’ coherent quantum processes in collections of protein microtubul...
This paper presents in details how the subjective time is constructed by the brain cortex via readin...
This paper makes two self-confessedly ambitious proposals. One is a theory of mind and world with an...
mesoscopic brain dynamics; neuropercolation; neurophenomenology; reflex arc; scale-free cortical dyn...
Proposals for quantum computation rely on superposed states implementing multiple computations simul...
AbstractThe nature of consciousness, the mechanism by which it occurs in the brain, and its ultimate...
Our brain is not a "stand alone" information processing organ: it acts as a central part of our inte...