Noor Aldoumani scite author profile

The remarkable ability of diverse animals to orientate and navigate during migration and homing over long distances has fascinated scientists for years. However, how the birds sense and process the magnetic field information in their brains is not known [1]. Recent advances have brought new insights into how field direction, intensity, and polarity are neurally encoded by single cells [2]. Several bird species are believed to possess physiological mechanisms that enable them to navigate using the magnetic field. Generally, it is accepted that there are two sensory magnetoreception mechanisms: a light-dependent cytochrome-based magnetic compass and a magnetite-based map [3]. To date, reproducing experimental results has been problematic perhaps related to the difficulty in controlling magnetic field conditions [4].We describe here a special instrumentation setup of threedimensional Helmholtz coils, which are used to cancel out the Earth's magnetic field and then generate a field within the range of the Earth's magnetic field, controlled by a specific current source. The magnetic mapping within the volume of the constructed system is measured and compared against magnetic modeling. The visual programming language, LabVIEW (version 2012SP1) of National Instruments (NI)[5], is used to control the system to generate any specific magnetic field condition.

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Fluxgate Magnetometer with an Orthogonal Flux Guide

Aldoumani¹,

Aldoumani²

2018

IJCA

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This paper will examine the developed ANSYS model to test advanced materials, i.e. amorphous and metaglas, as well as to optimise the geometry of the fluxgate magnetometer. In other words, the current chapter presents an optimised study of the materials and geometry of the magnetometer which provides savings in terms of material usage as well as the employed electric current to produce an equivalent magnetic field. This design has been developed using the PCB wherein a magnetometer consisting of a planar fluxgate structure with an orthogonal ferromagnetic fluxguide has centrally been situated over the magnetic core. KeywordsAmorphous and metaglas materials, Fluxgate magnetometer, Flux guide, geometry of the magnetometer.

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Noor Aldoumani

Enhanced Tracking System Based on Micro Inertial Measurements Unit to Measure Sensorimotor Responses in Pigeons

Instrumentation for monitoring animal movements

Instrumentation to investigate the magnetoreception of homing pigeons by using applied magnetic fields

Fluxgate Magnetometer with an Orthogonal Flux Guide

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