A gold finder—often called a metal detector—is a device used to detect the presence of metallic objects, including gold, beneath the surface. Metal detectors are used for gold prospecting work by generating an electromagnetic field and detecting disturbances caused by nearby metal objects. Here’s how a typical gold finder works in more detail:
1. Electromagnetic Field Generation
The metal detector has a search coil (or loop) that sends out an electromagnetic field into the ground when powered on. This field is created by an alternating current passing through the coil, which alternates rapidly to create a constantly changing magnetic field around the detector.
2. Inducing Currents in Metal Objects
When the electromagnetic field encounters a conductive material (like gold), it induces tiny eddy currents in the metal object. These currents generate their weak magnetic fields in response to the original field from the detector.
3. Receiving the Signal
The metal detector has a second coil (sometimes part of the same coil system), called the receiver coil, which detects changes in the magnetic field. If a metallic object like gold is nearby, the magnetic field from the object disturbs the original electromagnetic field. The detector senses this disturbance as a signal.
4. Signal Processing and Feedback
The strength and pattern of the signal are processed by the metal detector’s electronics, which then give feedback to the user, typically through an audible tone or a visual display. The closer or larger the metal object, the stronger the signal, allowing the user to zero in on its location.
5. Discrimination Technology
Modern gold detectors often have discrimination features, which allow the user to distinguish between different types of metals (e.g., iron, aluminium, gold). This is important because gold detectors are usually optimized to ignore signals from other metals like iron, which are more common and may lead to false positives.
6. Pulse Induction vs. Very Low Frequency (VLF) Detectors
There are two common types of gold detectors:
Very Low Frequency (VLF) Detectors: These detectors operate at higher frequencies (often 15-50 kHz), which makes them more sensitive to smaller gold nuggets but less effective in mineralized soils. They’re best for shallow gold detection.
Pulse Induction (PI) Detectors: These work by sending rapid pulses of current into the ground and are better suited for deep-ground penetration. PI detectors are less affected by highly mineralized soils, making them good for gold prospecting in areas with high concentrations of iron or salt minerals.
7. Ground Balancing
Gold detectors often come with ground-balancing features. Natural minerals in the soil, especially iron, can cause signals similar to those from metal objects. Ground balancing helps the detector ignore these mineral signals and focus on detecting metals like gold. There are automatic and manual ground-balancing settings that help fine-tune the device for various soil conditions.
Summary:
In simple terms, a gold finder works by transmitting an electromagnetic field into the ground, detecting the changes caused by conductive objects like gold, and then providing feedback (beeps, lights, or a digital display) to the user when gold is detected. Advanced models have additional features to distinguish gold from other metals and to deal with challenging soil conditions.