Carl W. Akerlof

Carl Akerlof is a particle physicist and astrophysicist at the University of Michigan. He initiated and led the Robotic Optical Transient Search Experiment (ROTSE),[1] a ground-breaking effort to find fast astrophysical optical transients, particularly gamma-ray bursts. A fellow of the American Physical Society.[2] he has co-authored over 400 papers with 1500 collaborators, which have been cited over 6000 times.[3]

Early career

Akerlof came from a family of scientists; both his father and his uncle were physical chemists who worked on the Manhattan Project during World War II.[4] His brother, George Akerlof, is a Nobel Laureate economist.[5] Carl Akerlof earned his BA at Yale in 1960 and his PhD at Cornell in 1967. In 1969, he joined the faculty of the University of Michigan, where he has remained ever since.

Change to Astrophysics

Akerlof initially studied the strong and electromagnetic interactions of elementary particles in a number of experiments at the Cornell electron synchrotron, Argonne National Laboratory, Fermilab and the Stanford Linear Accelerator. His interests began to shift to astrophysics in 1980 with the exploration of how high energy particle physics techniques could be applied to astrophysics. The first effort along these lines showed that despite the wishful thinking of a number of physicists, magnetic monopoles could not be detected by the acoustic waves that would be generated in electrical conductors.[6] In 1986, he started to look for TeV gamma-ray radiation of cosmic origin using a pair of solar concentrators at Sandia National Laboratory as light collectors.[7] This work morphed into collaboration with a group at Mt. Hopkins, Arizona directed by Trevor Weekes that led to the unexpected discovery of such radiation from Active Galactic Nuclei at cosmological distances. A few years later, fascinated by the mystery of bright cosmic explosions called gamma-ray bursts, he began a series of experiments in 1992 to find prompt optical traces of these violent events, culminating in a successful optical observation on January 23, 1999.[8]

International Collaboration

Akerlof has worked to foster international collaboration, including a 1974 sabbatical in the Soviet Union to work on an experiment at the 70 GeV particle accelerator at Serpukov.[4] The trip produced little science but provided significant insights regarding the organizational difficulties faced by Russian physicists in the waning decade of the Soviet system.[9]

With the goal of encouraging other nations to find effective paths to interesting and affordable astrophysics research, he has visited a number of countries including China, Iran, South Africa and Thailand. His most significant contribution in this area is the ROTSE Collaboration which has built and operated four robotic optical telescopes on four continents in Australia, the United States, Namibia and Turkey. This project has been running for about a decade and has successfully observed and detected gamma-ray bursts and supernovae. A former University of Michigan student, Wiphu Rujopakorn, has taken advantage of the ROTSE imaging data for instructing school children in Thailand about the mysteries of astronomy.[1]

Significant Discoveries

Akerlof is best known for his work in establish the feasibility of real time searches for optical transients and the subsequent observations of a large number of gamma-ray bursts and supernovae. He was also a participant in the discovery of TeV gamma-rays from the type of Active Galactic Nuclei known as “blazars”. NASA considered his discovery of optical radiation from GRB990123[10] one of the top ten discoveries of that year.[11] His earlier work in particle physics has been widely cited.[3] Most recently, his teaching activities have led him to introduce a number of astrophysics experiments into the undergraduate lab curriculum.

gollark: Or somewhat self-regularizing discrete ones.
gollark: I mean, look at something something continuous chaotic systems.
gollark: Aren't discreteness and small changes causing big differences somewhat separate, though?
gollark: True.
gollark: DNA is sort of kind of a digital storage system, and it gets translated into proteins, which can turn out really differently if you swap out an amino acid.

See also

Particle physics

References

  1. ROTSE (2013). "Robotic Optical Transient Search Experiment." http://www.rotse.net/
  2. University of Michigan (2013). "Faculty Directory: Carl Akerlof." "Archived copy". Archived from the original on 2013-05-07. Retrieved 2013-05-07.CS1 maint: archived copy as title (link)
  3. Microsoft (2013). "Microsoft Academic Search: Carl Akerlof." http://www.journalogy.net/Author/11516730/carl-akerlof%5B%5D
  4. American Physical Society (2013). "Carl Akerlof: Candidate for Member-at-Large." http://www.aps.org/units/fip/governance/elections/akerlof10.cfm Archived 2016-03-03 at the Wayback Machine
  5. Nobel Foundation (2013). " George A. Akerlof – Biographical." http://www.nobelprize.org/nobel_prizes/economic-sciences/laureates/2001/akerlof-bio.html
  6. Akerlof, C.W. (1982). "Limits on the Thermoacoustic Detectability of Electric and Magnetic Charges", Phys. Rev. D26, 1116-1127. http://prd.aps.org/abstract/PRD/v26/i5/p1116_1%5B%5D
  7. Punch, M. and Akerlof, C.W. et al. (1992). "Detection of TeV photons from the active galaxy Markarian 421", Nature Vol. 358, 477-478 http://www.nature.com/nature/journal/v358/n6386/abs/358477a0.html
  8. Steeh, J. (3 Apr 2003). "It's a nova ...it's a supernova ...it's a HYPERNOVA." University of Michigan News Service. http://www.ns.umich.edu/Releases/2003/Apr03/r040303c.html
  9. Akerlof, C.W. (Mar 1976). "Travel Report: Institute of High Energy Physics at Serpukhov, USSR." http://deepblue.lib.umich.edu/bitstream/handle/2027.42/78365/USSR_REPT.pdf;jsessionid=3E50955C328977095290AA2E80A2773A?sequence=1
  10. Akerlof, C.; Balsano, R.; Barthelmy, S.; Bloch, J.; Butterworth, P.; Casperson, D.; Cline, T.; Fletcher, S.; Frontera, F.; Gisler, G.; Heise, J.; Hills, J.; Kehoe, R.; Lee, B.; Marshall, S.; McKay, T.; Miller, R.; Piro, L.; Priedhorsky, W.; Szymanski, J.; Wren, J. (1999). "Observation of contemporaneous optical radiation from a γ-ray burst". Nature. 398 (6726): 400–402. arXiv:astro-ph/9903271. Bibcode:1999Natur.398..400A. doi:10.1038/18837. S2CID 4422084.
  11. Keegan, S. (1999). "NASA'S 1999 feats presage its next millennium." NASA release 99-149. http://www.nasa.gov/home/hqnews/1999/99-149.txt
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