Ernst K. Zinner

Ernst Kunibert Zinner (30 January 1937 – 30 July 2015) was an Austrian astrophysicist, known for his pioneering work in the analysis of stardust in the laboratory. He long had a position in the United States at the Laboratory for Space Physics (later part of the McDonnell Center for the Space Sciences) at Washington University in St. Louis, Missouri, where he had earned his doctorate. He came to the United States in the 1960s for graduate work. In addition, Zinner regularly taught at European universities, and other American institutions.

Ernst K. Zinner
Born(1937-01-30)January 30, 1937
DiedJuly 30, 2015(2015-07-30) (aged 78)
Saint Louis, Missouri
NationalityAustrian
EducationVienna University of Technology
Washington University in St. Louis
OccupationAstrophysics

Personal life

Zinner was born on 30 January 1937 at Steyr, Austria,[1] a small town about 100 miles west of Vienna. Although his father, Kunibert Zinner, was a renowned sculptor, Ernst was more interested as a boy in nature and science.[1] Zinner's four younger siblings, and other relatives, live in Austria.

While on sabbatical later in his career, he met Brigitte Wopenka, a faculty member of the Institute of Analytical Chemistry in Vienna. She returned with him to the United States and they married in 1980. They had a son, Max Giacobini Zinner. The son now lives in New York City.[2]

Education and career

Zinner obtained an undergraduate degree in physics from the Vienna University of Technology and started working. In the mid-1960s, he moved to St. Louis, Missouri to attend Washington University for graduate work. He earned his Ph.D. there in 1972 in high energy physics.[2]

That year he was invited by Robert M. Walker to work at the Laboratory for Space Physics (later part of the McDonnell Center for the Space Sciences) at Washington University.[2][3][4]

He also held positions at:

Zinner continued to work at the McDonnell Center for the Space Sciences for the rest of his career, in 1989 being named as a Research Professor of Physics and Earth and Planetary Sciences. He retired early in 2015.[2][3]

Zinner was a member of the American Association for the Advancement of Science, the American Geophysical Union, and Sigma Xi. He was also a fellow of the American Physical Society, the Meteoritical Society, the Geochemical Society, and the European Association of Geochemistry.[3]

Zinner had mantle cell lymphoma for the last 19 years of his life. He died on 30 July 2015 at the age of 78.[2]

Research

Zinner's PhD research was in high energy physics. He subsequently studied the effects that the environment within our solar system would have on the moon and the parent bodies of meteors, using nuclear particle tracks, micrometeoid craters, and elements in the solar wind. His later research was focused on the information contained in presolar grains carried by early meteorites. These grains were formed in atmospheres and explosions of stars outside of earth's solar system. They can provide information about the history of stellar nucleosynthesis and the formation of the solar system.[3]

Zinner was instrumental in identifying, for the first time, material in meteorites that pre-dated the formation of the solar system 4.6 billion years ago.[5][6] Zinner and his colleagues found minute amounts of stardust - diamond and silicon carbide - that originated outside the solar system.

Identification of these grains involved a measurement technique called secondary ion mass spectrometry (SIMS). Zinner was widely considered one of the leading authorities on the instrument,[1] and he trained scientists worldwide in its use. The work led to the emergence of a new field of study, the laboratory analysis of stardust,[7] which opened up new insights into the evolution of stars and nucleosynthesis of the elements.

Since 1974, Zinner's research has involved Ion microprobe analysis. He has worked with the Cameca IMS 3f instrument since 1982, and the Cameca NanoSIMS instrument since 2000.[3] He led the Long Duration Exposure Facility.[3]

Awards and honours

Legacy

After his death, his family established an "Ernst Zinner Scholarship Fund" to support advanced cello students in the Community Music School at Webster University. Zinner had started learning cello at age 55, along with his son, then age 4.[2]

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gollark: Assume there are integers x, y satisfying x²-y²=2(x-y)(x+y)=2x-y, x+y are both integers because they are a sum/difference of integersx, y >= 0 because (-x)²=x² so just ignore negative solutions since they only exist if a positive one does2 has the factors 2,1 so x-y, x+y must be 1, 2 in some orderx-y, x+y differ by 2yx-y, x+y differ by 12y=1y=½But y is an integer

References

  1. McKeegan, Kevin D. (July 2007). "Ernst Zinner, lithic astronomer". eScholarship. 42 (7/8): 1045–1054.
  2. "Obituary: Ernst K. Zinner, astrophysicist and cosmochemist, 78". Washington University in St Louis. 6 August 2015.
  3. "Ernst K. Zinner". Washington University in St Louis. Retrieved 2 August 2015.
  4. "Ernst K. Zinner CV" (PDF). CalTech. Retrieved 30 December 2016.
  5. Bernatowicz, Thomas; Fraundorf, Gail; Ming, Tang; Anders, Edward; Wopenka, Brigitte; Zinner, Ernst; Fraundorf, Phil (1987). "Evidence for interstellar SiC in the Murray carbonaceous meteorite". Nature. 330 (6150): 728–730. Bibcode:1987Natur.330..728B. doi:10.1038/330728a0.
  6. Zinner, Ernst; Ming, Tang; Anders, Edward (1987). "Large isotopic anomalies of Si, C, N and noble gases in interstellar silicon carbide from the Murray meteorite". Nature. 330 (6150): 730–732. Bibcode:1987Natur.330..730Z. doi:10.1038/330730a0.
  7. "Laboratory for Space Sciences". presolar.wustl.edu.
  8. "J. Lawrence Smith Medal". nasonline.org.
  9. "Leonard Medal". meteoriticalsociety.org.
  10. "Tuve Fellow". dtm.carnegiescience.edu.
  11. "AAAS Members Elected as Fellows". aaas.org.
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