Robert Julius Trumpler (until 1915 Robert Trümpler, October 2, 1886, in Zürich, Switzerland – September 10, 1956, in Berkeley, United States) was a Swiss-American astronomer.
After initial schooling, Trumpler entered the Universität Zürich but later transferred to the University of Göttingen where he earned his PhD in 1910. In 1915, during World War I, he emigrated to the United States and joined the University of California. He took a position at Allegheny Observatory, and later went to Lick Observatory. In 1921, he became a naturalized citizen of the United States. He was elected a member of the United States National Academy of Sciences in 1932.[1]
He is most noted for observing that the brightness of the more distant open clusters was lower than expected, and the stars appeared more red. This was explained by the interstellar dust scattered through the galaxy, resulting in the absorption (extinction) of light or interstellar extinction of light.[2]
Trumpler further studied and catalogued open clusters in order to determine the size of the Milky Way galaxy. At first he thought his analysis placed an upper limit on the Milky Way's diameter of about 10,000 parsecs with the Sun located somewhat near the center although he later revised this. While cataloguing open clusters, he also devised a system for their classification according to the number of stars observed within them, how concentrated these stars are in the center of the cluster and the range of their apparent brightness. This system, known as the Trumpler classification,[3] is still in use today.
The Robert J. Trumpler Award, awarded by the Astronomical Society of the Pacific for an outstanding PhD Thesis in astronomy, is named in his honor.[4]
The following celestial features are named after him:
Trumpler's classification method for open star clusters is still currently in use by astronomers. It classifies the star cluster according to three features: Degree of concentration, range of magnitude (brightness) for the stars found in the cluster and the number of stars in the cluster. Degree of concentration is given a number from 1 to 4 in Roman numerals (number I indicating a strong central concentration, II indicating little central concentration, III indicates no noticeable concentration and IV little difference from the surrounding stellar population).[5] [6]
Range of magnitude is classified in a scale 1 to 3 and is written in Arabic numerals. Number 1 indicates most stars within the cluster have a very similar apparent brightness. 2 indicates a medium range across the stars in the cluster and 3 indicates a significant difference in brightness, from very bright to very faint stars.
The third feature classifies the number of stars inside the cluster and it uses letters. Letter
Some notable objects from his 1930 catalogue of open clusters are: