Search coil

The search coil (also known as Inductive Sensor) is a sensor which measures the variation of the magnetic flux. The search-coil can measure magnetic field from mHz up to hundreds of MHz. It is associated to a conditioning electronic to make a search coil magnetometer (also known as induction magnetometer).

Principle

The induction sensor is based on Faraday's law of induction. The temporal variation of the Magnetic Flux  \Phi through a N turns circuit will induce a voltage e which follows:

 e = - N\frac{\mathrm d \Phi}{\mathrm dt}

which can be expressed in a simpler way:

 e = - N\times S\frac{\mathrm dB}{\mathrm dt}

by assuming that the induced magnetic field B is homogeneous over a section S (the Magnetic flux will be expressed  \Phi = B\times S ).

Figure 1: Induction sensor constituting with a winding (orange) surrounding a ferromagnetic core (grey)

The induced voltage (e) may be increased several ways:

Search coil using a ferromagnetic core

When a coil is wounded around a ferromagnetic core, that increases the sensitivity of the sensor thanks to the apparent permeability of the ferromagnetic core.

Apparent permeability

The magnetic amplification, known as apparent permeability \mu_{app}, is the result of the magnetization of the ferromagnetic core response to an external magnetic field. The magnetization is reduced by the demagnetizing field.

 \mu_{app} = \frac{\mathrm \mu_r}{\mathrm 1+N_z\times(\mu_r-1)}

where \mu_r is the relative permeability,  N_z is the demagnetizing coefficient in the z direction.

The induced voltage will be written

 e = - NS\mu_{app}\frac{\mathrm dB}{\mathrm dt}

The demagnetizing coefficient can easily be computed in the case of simple shapes (spheres and ellipsoids).

Applications

A search coil is used to measure eye movement using coils that are embedded into a tightly-fitting contact lens or a rubber ring that adheres to the eye. In animal studies, the search coil may be surgically implanted into the sclera of the eye. Alternating magnetic fields are generated by magnets positioned around the eye. Through electromagnetic induction, electric currents are generated in the search coils. The polarity and amplitude of the current generated varies with the direction and angular displacement of the eye. By measuring these values, the position of the eye can be determined. Search coils can be applied to one or both eyes.

In order to detect eye orientation in more than one dimension (e.g. up/down vs. left/right), multiple magnets oriented orthogonally to each other may be used. Each magnet generates a field using a different frequency, allowing the readings from the search coil to be analyzed by computer to determine displacement in multiple dimensions. Additionally, a second search coil can be added to measure torsional rotation.

A more crude search coil also called exploring coil is also used in laboratory experiments in schools to measure the magnetic field in a certain region of space. In this case the search coil consists of a simple wire coil or solenoid connected to a sensitive ammeter or galvanometer. The coil is placed in the magnetic field to be measured and quickly withdrawn to a region of space with a negligible magnetic field. As the search coil moves the magnetic flux linked with the coil changes. This induces a current in the coil which can be registered on the galvanometer. Since induced current is directly proportional to rate of change of flux linkage and assuming the coil is removed from the magnetic field very quickly, the maximum current measured by the ammeter is proportional to the magnetic field \ \mathbf{B}. The search coil can be calibrated by repeating this in a known magnetic field. A reference table shows open coil voltage versus magnetic field A/m (or teslas) or short current versus magnetic field.

Spacecraft on boarding search coil magnetometers has been built since many decades to investigate waves in space plasma.

Many electromagnetic waves are observable on Earth. Let's quote Auroral research project (cf. Reference HAARP link).

References

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