In this preprint, the authors present an alternative view of entry Islam into Indian subcontinent in 8th century, as a meso-scale event mediated by macro-scale gravitational events cosmos. Utilizing neuroscience, are able to dispassionate troubled history.

The study of axon tracts is important in neurophysiology. In this paper, we with arbitrary geometry and present a governing equation for ephaptic coupling among the constituent axons. We derive simulate it, obtaining novel, geometry-dependent, delayed phenomenon. This has relevance how an tract communicates data neurological network.

Background: The estimation of inter-relationship between arm span and stature has been an important tool in anthropometric measurements. It is found to be great importance such cases where direct measurement not possible. Objective: To find the correlation arm-span standing height both males females population Rajasthan use results for medico-legal purposes. Materials Methods: study involved 600 participants (300 300 females) grouped 3 different age groups among these groups. were divided as...

We propose a mechanism for the function of choice in attention and awareness, whereby we refer to faculty which allows organism choose more significant events from field possibilities.We show how ephaptic coupling between sensory neurons say, olfactory system, information theoretically stimuli presented organism.We conclude that could have role organization stored processed by brain.

In this paper, we present a simulation program that allows for the concurrent propagation of action potentials in axons coupled via currents, as well as, first time, computation resultant nodal electric field generated traverse tract axons. With these fields hand, inject currents into nodes depend on and study coupling between presence jointly varying strengths. We find close-to-synchronized three dimensions. Further, derive time mathematical equation tortuous tracts (as opposed to linear)...

This paper derives rigorous statements concerning the propagation velocity of action potentials in axons. The authors use Green’s function approach to approximate potential and find a relation between conduction impulse profile. Computer simulations are used bolster analysis.

In this brief paper, the authors study tuning curves of starburst amacrine cells (SACs) and introduce a quantity called irresolution or ambiguity SAC. They show that rate data generated by cell is inversely proportional to its irresolution. This done providing bounds on required encode data. technique can be applied different types with curves. manner, information theoretic views introduced cases biological which are not normally considered as transmitters say retinal ganglion are. The...

It was recently argued that a neuron would decohere very rapidly from any quantum superposition of its “on” and “off” states. We argue hot, wet, biological device such as is not two-state but better modeled “quasi-analog” with large number basis states, using the presence electric fields. Furthermore, shown to have decoherence time on order 1 ms, timescale an action potential. This imply information may be stored processed by neuron.

Metric perturbations are deviations from a homogeneous spacetime background. In this paper, the authors extend an earlier investigation by using high-precision computer simulations and show that there is definite impact of metric perturbations, is, gravitational radiation, on time-coded information conducted tract neural axons as found in human central nervous system.

In this paper, the authors extend [1] and provide more details of how brain may act like a quantum computer. particular, positing difference between voltages on two axons as environment for ions undergoing spatial superposition, we argue that evolution in presence metric perturbations will differ from absence these waves. This differential state then encode information being processed by tract due to interaction at nodes with "controlling' potential. Upon decoherence, which is equal...

Abstract It is well known that demyelination associated with multiple sclerosis alters coupling between axons in a diseased nerve tract due to exposure of ion channels. In this work we ask the question whether presence electric fields as mechanism axons, has any impact on expected conduction properties under focal demyelination. Using an approximate geometry for bundle three allow generated at node Ranvier influence other nodes different axons. order introduce demyelination, new type...

Metric perturbations are deviations from a homogeneous spacetime background. In this paper, the authors extend an earlier investigation by using high precision computer simulations and show that there is definite impact of metric perturbations, is, gravitational radiation, on time-coded information conducted tract neural axons as found in human central nervous system.

In this paper the authors extend [1] and provide more details of how brain may act like a quantum computer. particular, positing difference between voltages on two axons as environment for ions undergoing spatial superposition, we argue that evolution in presence metric perturbations will differ from absence these waves. This differential state then encode information being processed by tract due to interaction at nodes with `controlling' potential. Upon decoherence, which is equal...