Moritz Ludwig Frankenheim | |
---|---|
Born |
Brunswick, Principality of Brunswick-Wolfenbüttel |
June 29, 1801
Died | January 14, 1869 Dresden, Kingdom of Saxony |
(aged 67)
Nationality | German |
Alma mater | Humboldt University of Berlin |
Known for | Work on crystallography, particularly studies of crystal structure and the mathematical and theoretical basis of the symmetry of crystals |
Spouse(s) | Friderike Frankenheim |
Children | 2 daughters |
Scientific career | |
Fields | Physics, geography, crystallography |
Institutions | University of Breslau |
Thesis | Dissertatio de Theoria Gasorum et Vaporum Meditationes ("Contemplations on the scientific theory of gases and vapors") (1823) |
Influences | Christian Samuel Weiss |
Influenced |
William Hallowes Miller Auguste Bravais |
Moritz Ludwig Frankenheim (June 29, 1801 – January 14, 1869) was a German physicist, geographer, and crystallographer.
Moritz Ludwig Frankenheim was born in 1801 in Brunswick. He attended the Gymnasium (high school) there and in Wolfenbüttel. Afterwards he went to Berlin to attend the Alma Mater Berolinensis (today Humboldt University of Berlin) to study physics. In 1823 he completed a dissertation titled Dissertatio de Theoria Gasorum et Vaporum Meditationes ("Contemplations on the scientific theory of gases and vapors"). Inspired by the research of his teacher Christian Samuel Weiss (1780-1856), he became interested in crystallography. In 1827 he moved to the University of Breslau, where he was assistant professor of physics, geography, and mathematics from 1827 to 1850. In 1850 he was promoted to the position of professor of these subjects. After his retirement, he first moved to Leipzig and then to Dresden, where he died in 1869 at the age of 67.
Frankenheim's focus of research was crystallography, particularly studies of crystal structure and the mathematical and theoretical basis of the symmetry of crystals. By 1826, he was already using the integer reciprocals of Weiss' coefficients (the intersection of a plane with the three crystallographic axes) to describe the spatial positions of crystal surfaces, from which the British crystallographer William Hallowes Miller (1801-1880) developed the concept of Miller indices in 1839. By assigning symmetry elements to the crystal systems defined previously by Weiss and Friedrich Mohs (1773-1839), Frankenheim was able, for the first time, to define 32 point groups (crystal classes) and to classify them into four crystal systems (the regular one, the fourfold, the twofold and the sixfold). From his observations he derived 15 lattice types for crystals, which were later reduced by Auguste Bravais (1811-1863) to 14 and today as Bravais lattices describe unit cells of crystal structures. Frankenheim conducted one of the first microscopic examinations of crystals in polarized light, using the then-new Nicol prism as a polarizer.