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Étienne-Louis Malus

From Wikipedia, the free encyclopedia
Étienne-Louis Malus
Portrait by Louis-Léopold Boilly, 1810
Born23 July 1775
Paris, France
Died24 February 1812 (1812-02-25) (aged 36)
Paris, France
NationalityFrench
Known forMalus's law
Plane of polarization
Polarization of light
Malus-Dupin theorem
AwardsRumford Medal (1810)
Scientific career
FieldsPhysics

Étienne-Louis Malus (/ˈɛt.i.ɛn ˈl.i məˈls/; French: [e.tjɛn.lwi ma.lys]; 23 July 1775 – 23 February 1812) was a French officer, engineer, physicist, and mathematician.

Malus was born in Paris, France. He participated in Napoleon's expedition into Egypt (1798 to 1801) and was a member of the mathematics section of the Institut d'Égypte. Malus became a member of the Académie des Sciences in 1810. In 1810 the Royal Society of London awarded him the Rumford Medal.

His mathematical work was almost entirely concerned with the study of light. He studied geometric systems called ray systems, closely connected to Julius Plücker's line geometry. He conducted experiments to verify Christiaan Huygens's theories of light and rewrote the theory in analytical form. His discovery of the polarization of light by reflection was published in 1809 and his theory of double refraction of light in crystals, in 1810.

Malus attempted to identify the relationship between the polarising angle of reflection that he had discovered, and the refractive index of the reflecting material. While he deduced the correct relation for water, he was unable to do so for glasses due to the low quality of materials available to him (the refractive index of most glasses available at that time varied between the surface and the interior of the glass). It was not until 1815 that Sir David Brewster was able to experiment with higher quality glasses and correctly formulate what is known as Brewster's law. This law was later explained theoretically by Augustin Fresnel, as a special case of his Fresnel equations.

Malus is probably best remembered for Malus's law, giving the resultant intensity, when a polariser is placed in the path of an incident beam. A follower of Laplace, both his statement of the Malus's law and his earlier works on polarisation and birefringence were formulated using the corpuscular theory of light.[1]

His name is one of the 72 names inscribed on the Eiffel tower.

"Discovery" of polarization

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In 1810, Malus, while engaged on the theory of double refraction, casually examined through a doubly refracting prism of quartz the sunlight reflected from the windows of the Luxembourg palace. He was surprised to find that the two rays alternately disappeared as the prism was rotated through successive right angles, in other words, that the reflected light had acquired properties exactly corresponding to those of the rays transmitted through Iceland spar.

He named this phenomenon polarization, and thought it could not be explained by wave theory of light. Instead, he explained it by stating that light-corpuscules have polarity (like magnetic poles).[2]

Selected works

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Work

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Malus mathematically analyzed the properties of a system of continuous light rays in three dimensions. He found the equation of caustic surfaces and the Malus theorem: Rays of light that are emitted from a point source, after which they have been reflected on a surface, are all normal to a common surface, but after the second refraction they no longer have this property. If the perpendicular surface is identified with a wave front, it is obvious that this result is false, which Malus did not realize because he adhered to Newton's theory of light emission, and Malus's theorem was not proved until 1824 by W. R. Hamilton.

See also

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References

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  1. ^ Iwan Rhys Morus (2005). When Physics Became King. The University of Chicago Press. p. 29. ISBN 0-226-54202-5.
  2. ^ 9th edition of Encyclopædia Britannica, Volume 14, page 611, entry "Light".
  • Kahr, Bart; Claborn, Kacey (2008), "The lives of Malus and his bicentennial law.", ChemPhysChem, vol. 9, no. 1 (published Jan 11, 2008), pp. 43–58, doi:10.1002/cphc.200700173, PMID 17680582
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