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Adriaan van Maanen

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Adriaan van Maanen
Born(1884-03-31)March 31, 1884
DiedJanuary 26, 1946(1946-01-26) (aged 61)
NationalityDutch
Alma materUniversity of Utrecht
Known forVan Maanen's star
Scientific career
FieldsAstronomy
InstitutionsMount Wilson Observatory
Yerkes Observatory
University of Groningen
Doctoral advisorAlbertus Antonie Nijland

Adriaan van Maanen (March 31, 1884, Sneek – January 26, 1946, Pasadena) was a Dutch–American astronomer.

Van Maanen, born into a well-to-do family in Friesland, studied astronomy at the University of Utrecht (earning his Ph.D. in 1911) and worked briefly at the University of Groningen. In 1911, he came to the United States to work as a volunteer in an unpaid capacity at Yerkes Observatory. Within a year he got a position at the Mount Wilson Observatory, where he remained active until his death in 1946.

He discovered Van Maanen's star.

He is well known for his astrometric measurements of internal motions in spiral nebulae. Believing that nebulae were local, stellar and gaseous systems that existed in our galaxy, his measurements came to be at odds with Edwin Hubble's discovery that the Andromeda Nebula and other spiral nebulae were extragalactic objects. The speed at which he calculated the nebulae to rotate would, if Hubble were correct as to their extragalactic nature, have had their Cepheid stars moving at speeds faster than that of light. In 1935, it was decided that since Hubble's calculations of extragalactic Cepheid distances were correct, ergo van Maanen's astrometric measurements had to be incorrect.

In 1924 he became member of the Royal Netherlands Academy of Arts and Sciences.[1]

Known for faulty results

In the first and second decade of the 20th century there was a large controversy in the astronomical world about the size of the Milky Way, the size of the universe and the nature of spiral galaxies. The result of this controversy was the great debate in Washington DC between Harlow Shapley and Heber Doust Curtis in April 1920. Shapley believed that spiral galaxies weren't systems equal to the Milky Way and in one of his arguments he used the results of Van Maanen, who measured the rotation of the spiral arms of spiral galaxies. After extrapolating his results he concluded that motion of the arms of spiral galaxies had a period of 105 years. While Curtis had stated that spiral galaxies were similar to the Milky Way and thus had to have a similar size, believed to be 5 kiloparsecs (kpc) at that time, the period of the motion was far too small for a radius of 2.5 kpc. At that period and radius, it would mean that the spiral arms rotated with a speed greater than the speed of light. Curtis agreed that if the results of van Maanen were correct, Shapley was right. But Curtis rejected the results of van Maanen due to unrealistic accuracy claimed by him. Later astronomers have re-examined the measurements of Van Maanen, and concluded he had made a serious error.

The origin of van Maanen's measurement errors emerged from his stereo blink comparator, which van Maanen used to compare new plates with plates some 10–20 years old. By blinking between those two plates he could detect small discrepancies on the positions of the objects. His reference objects were the field stars fairly near the edge of the plates. However he didn't consider that due to optical effects these stars had been smeared out a little towards the edges, slightly different for the two plates. This caused systematic errors resulting in imaginary movements.

Another possible explanation is that van Maanen simply saw what he had been trained to see for years. The belief that the "spiral nebulae" were relatively nearby and therefore ought to have a quite detectable rotation was quite widespread in the early 20th-century and therefore very hard to ignore. This does not, however, explain supposedly corroborating findings from Mount Wilson, Lowell Observatory, Russia, and the Netherlands.[2]

References

Notes
  1. ^ "A. van Maanen (1884 - 1946)". Royal Netherlands Academy of Arts and Sciences. Retrieved 17 July 2015.
  2. ^ Marcia Bartusiak, The Day We Found the Universe (2009) [Vintage Books, page 162]
Further reading