Magnetostriction with the Michelson interferometer

With the aid of two mirrors in a Michelson arrangement, light is brought to interference. Due to the magnetostrictive effect, one of the mirrors is shifted by variation in the magnetic field applied to a sample and the change in the interference pattern is observed.

  • See that magnetic fields can change the geometry of objects
  • Use a Michelson interferometer to measure quantitatively this most subtle effect
  • Set up the instrument by yourself from separate components

Lens, mounted, f +20 mm

Optical base plate with rubber feet

He/Ne Laser, 5 mW with holder

Magnetic foot for optical base plate

Adjusting support 35 x 35 mm

Surface mirror 30 x 30 mm

Holder for diaphragms and beam splitters

Lensholder for optical base plate

Faraday modulator for optical base plate

Rods for magnetostriction,set

Beam splitter 1/1, non polarizing

Screen, white, 150×150 mm

Digital multimeter 2005

Connecting cord, 32 A, 500 mm, blue

Flat cell battery, 9 V

PHYWE power supply, universal DC: 0…18 V, 0…5 A / AC: 2/4/6/8/10/12/15 V, 5 A

  1. Construction of a Michelson interferometer using separate optical components.
  2. Testing various ferromagnetic materials (iron and nickel) as well as a non-ferromagnetic material (copper), with regard to their magnetostrictive properties.
  • Interference
  • Wavelength
  • Diffraction index
  • Speed of light
  • Phase
  • Virtual light source
  • Ferromagnetic material
  • Weiss molecular magnetic fields
  • Spin-orbit coupling

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Product number

P2430800

Reference