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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Mirror galvanometer | 2/2 | https://en.wikipedia.org/wiki/Mirror_galvanometer | reference | science, encyclopedia | 2026-05-05T09:43:19.898895+00:00 | kb-cron |
Moving coil galvanometer was developed independently by Marcel Deprez and Jacques-Arsène d'Arsonval about 1880. Deprez's galvanometer was developed for high currents, while D'Arsonval designed his to measure weak currents. Unlike in the Kelvin's galvanometer, in this type of galvanometer the magnet is stationary and the coil is suspended in the magnet gap. The mirror attached to the coil frame rotates together with it. This form of instrument can be more sensitive and accurate and it replaced the Kelvin's galvanometer in most applications. The moving coil galvanometer is practically immune to ambient magnetic fields. Another important feature is self-damping generated by the electro-magnetic forces due to the currents induced in the coil by its movements the magnetic field. These are proportional to the angular velocity of the coil.
== Modern uses ==
In modern times, high-speed mirror galvanometers are employed in laser light shows to move the laser beams and produce colorful geometric patterns in fog around the audience. Such high speed mirror galvanometers have proved to be indispensable in industry for laser marking systems for everything from laser etching hand tools, containers, and parts to batch-coding semiconductor wafers in semiconductor device fabrication. They typically control X and Y directions on Nd:YAG and CO2 laser markers to control the position of the infrared power laser spot. Laser ablation, laser beam machining and wafer dicing are all industrial areas where high-speed mirror galvanometers can be found. This moving coil galvanometer is mainly used to measure very feeble or low currents of order 10−9 A. To linearise the magnetic field across the coil throughout the galvanometer's range of movement, the d'Arsonval design of a soft iron cylinder is placed inside the coil without touching it. This gives a consistent radial field, rather than a parallel linear field.
== See also == String galvanometer
== References ==
== Further reading == "Marcel Deprez's Galvanometer for Strong Currents". Nature. 22 (559): 246–7. 15 July 1880. Bibcode:1880Natur..22R.246.. doi:10.1038/022246b0.
== External links ==
Mirror Galvanometer - Interactive Java Tutorial National High Magnetic Field Laboratory