Heike Kamerlingh Onnes
Heike Kamerlingh Onnes
21 September 1853
|Died||21 February 1926 (aged 72)|
|Alma mater||Heidelberg University|
University of Groningen
|Known for||Liquid helium|
Virial equation of state
Coining the term "enthalpy"
Kamerlingh Onnes Award
|Awards||Matteucci Medal (1910)|
Rumford Medal (1912)
Nobel Prize in Physics (1913)
Franklin Medal (1915)
|Institutions||University of Leiden|
|Doctoral advisor||Rudolf Adriaan Mees|
|Other academic advisors||Robert Bunsen|
|Doctoral students||Jacob Clay|
Wander de Haas
|Influences||Johannes Diderik van der Waals|
|Influenced||Willem Hendrik Keesom|
Heike Kamerlingh Onnes (Dutch pronunciation: [ˈɦɛikə ˈkaːmərlɪŋ ˈɔnəs]; 21 September 1853 – 21 February 1926) was a Dutch physicist and Nobel laureate. He exploited the Hampson–Linde cycle to investigate how materials behave when cooled to nearly absolute zero and later to liquefy helium for the first time, in 1908. He also discovered superconductivity in 1911.
Kamerlingh Onnes was born in Groningen, Netherlands. His father, Harm Kamerlingh Onnes, was a brickworks owner. His mother was Anna Gerdina Coers of Arnhem.
In 1870, Kamerlingh Onnes attended the University of Groningen. He studied under Robert Bunsen and Gustav Kirchhoff at the University of Heidelberg from 1871 to 1873. Again at Groningen, he obtained his master's degree in 1878 and a doctorate in 1879. His thesis was Nieuwe bewijzen voor de aswenteling der aarde (tr. New proofs of the rotation of the earth). His doctoral thesis was on Foucault's pendulum. From 1878 to 1882 he was assistant to Johannes Bosscha, the director of the Delft Polytechnic, for whom he substituted as lecturer in 1881 and 1882.
He was married to Maria Adriana Wilhelmina Elisabeth Bijleveld (m. 1887) and had one child, named Albert. His brother Menso Kamerlingh Onnes (1860–1925) was a painter (and father of another painter, Harm Kamerlingh Onnes), while his sister Jenny married another painter, Floris Verster (1861–1927).
From 1882 to 1923 Kamerlingh Onnes served as professor of experimental physics at the University of Leiden. In 1904 he founded a very large cryogenics laboratory and invited other researchers to the location, which made him highly regarded in the scientific community. The laboratory is known now as Kamerlingh Onnes Laboratory. Only one year after his appointment as professor he became member of the Royal Netherlands Academy of Arts and Sciences.
On 10 July 1908, he was the first to liquefy helium, using several precooling stages and the Hampson–Linde cycle based on the Joule–Thomson effect. This way he lowered the temperature to the boiling point of helium (−269 °C, 4.2 K). By reducing the pressure of the liquid helium he achieved a temperature near 1.5 K. These were the coldest temperatures achieved on earth at the time. The equipment employed is at the Museum Boerhaave in Leiden.
For further research on low-temperature, he needed large amounts of helium. This he obtained in 1911 from Welsbach's company, which processed thorianite to produce thorium for gas mantles. Helium is produced as a side product. Previously, Onnes obtained helium from processing monazite, and Onnes used the processed monazite (which still contained thorium) to trade for the helium. On earth, helium is usually found in coexistence with radioactive material, since it is a product of radioactive decay.
In 1911 Kamerlingh Onnes measured the electrical conductivity of pure metals (mercury, and later tin and lead) at very low temperatures. Some scientists, such as William Thomson (Lord Kelvin), believed that electrons flowing through a conductor would come to a complete halt or, in other words, metal resistivity would become infinitely large at absolute zero. Others, including Kamerlingh Onnes, felt that a conductor's electrical resistance would steadily decrease and drop to nil. Augustus Matthiessen said that when the temperature decreases, the metal conductivity usually improves or in other words, the electrical resistivity usually decreases with a decrease of temperature.
On 8 April 1911, Kamerlingh Onnes found that at 4.2 K the resistance in a solid mercury wire immersed in liquid helium suddenly vanished. He immediately realized the significance of the discovery (as became clear when his notebook was deciphered a century later). He reported that "Mercury has passed into a new state, which on account of its extraordinary electrical properties may be called the superconductive state". He published more articles about the phenomenon, initially referring to it as "supraconductivity" and, only later adopting the term "superconductivity".
Kamerlingh Onnes received widespread recognition for his work, including the 1913 Nobel Prize in Physics for (in the words of the committee) "his investigations on the properties of matter at low temperatures which led, inter alia, to the production of liquid helium".
Some of the instruments Kamerlingh Onnes devised for his experiments can be seen at the Boerhaave Museum in Leiden. The apparatus he used to first liquefy helium is on display in the lobby of the physics department at Leiden University, where the low-temperature lab is also named in his honor. His student and successor as director of the lab Willem Hendrik Keesom was the first person who was able to solidify helium, in 1926. The former Kamerlingh Onnes laboratory building is currently the Law Faculty at Leiden University and is known as "Kamerlingh Onnes Gebouw" (Kamerlingh Onnes Building), often shortened to "KOG". The current science faculty has a "Kamerlingh Onnes Laboratorium" named after him, as well as a plaque and several machines used by Kamerling Onnes in the main hall of the physics department.
The Kamerlingh Onnes Award (1948) and the Kamerlingh Onnes Prize (2000) were established in his honour, recognising further advances in low-temperature science.
The Onnes effect referring to the creeping of superfluid helium is named in his honor.
The crater Kamerlingh Onnes on the Moon is named after him.
Onnes is also credited with coining the word "enthalpy".
Onnes's discovery of superconductivity was named an IEEE Milestone in 2011.