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马克斯·冯·劳厄(Max von Laue,1879年10月9日—1960年4月24日),出生于德国柯布伦茨附近的普法芬多夫,物理学家,1914年诺贝尔物理学奖获得者,普鲁士科学院院士,美国国家科学院国际院士,生前是哥廷根大学名誉教授。马克斯·冯·劳厄于1904年获得柏林大学博士学位,随后留校做马克斯·普朗克的 ...
LAUE. 1879-1960. In M ax von L aue the world has lost one of the great physicists of the period of transition from classical physics to quantum physics. His work can be roughly divided by subject matter into thermodynamics of radiation, optics, including X-ray optics, relativity, and superconductivity. Best known is, of course, Laue’s ...
May 14, 2018 · Max von Laue. The German physicist Max von Laue (1879-1960) was the first to use x-rays to study the arrangement of atoms in crystals. His work in x-ray crystallography earned him the Nobel Prize in physics in 1914. Max Theodor Felix von Laue was born on October 9, 1879, in Pfaffendorf, Germany.
Oct 9, 2020 · Max von Laue was born in Pfaffendorf, near Koblenz, Germany. His parents were Julius Laue (1848-1927), a Prussian real secret war councilor and military director in Berlin, who was raised to the nobility in 1913, and his wife Wilhelmine Zerrenner (1853-1899).
Max von Laue letters to James Franck, 1907-1964. The Joseph Regenstein Library. Department of Special Collections. University of Chicago. 1100 East 57th Street, Chicago, IL 60637, USA. Max von Laue papers, 1920-1947. Archiv der Berlin-Brandenburgische Akademie der Wissenschaften. Jägerstrasse 22/23, 10117 Berlin. Max von Laue papers.
Oct 9, 2020 · Max von Laue, a German physicist, was born Oct. 9, 1879. In 1912, Laue hypothesized that if X-rays are electromagnetic waves, and if crystals have a regular lattice-like structure, then one might bounce X-rays off a crystal to produce an interference pattern that could be recorded on film, and which might contain information about the crystal ...
Max von Laue. Nobel Prize in Physics 1914. Like Max Planck and Arnold Sommerfeld, Max von Laue defined the period of transition from classical physics to quantum physics. His best-known contribution, the discovery of the diffraction of X-rays by crystals in 1912, was promptly recognised as fundamental for elucidating the nature of both X-rays ...
