Daniel McKinsey

Daniel Nicholas McKinsey is a leader in the field of direct searches for dark matter interactions, and serves as Co-Spokesperson of the Large Underground Xenon experiment.[1]. He is also The Georgia Lee Distinguished Professor of Physics at the University of California, Berkeley.

Biography

Daniel N. McKinsey joined the University of California, Berkeley Physics Department faculty in July 2015. He received a B.S. in Physics with highest honors at the University of Michigan in 1995[2]. His Ph.D. was awarded by Harvard University in 2002, with a thesis on the magnetic trapping, storage, and detection of ultracold neutrons in superfluid helium[3]. His postdoctoral research was performed at Princeton University[4], and in 2003 he joined the Yale University physics department[5], where he was promoted to Full Professor in 2014. He was awarded a Packard Fellowship in Science and Engineering Fellowship and an Alfred P. Sloan Research Fellowship, and served on the 2013-2014 Particle Physics Project Prioritization Panel (P5)[6].

Research interests

McKinsey's research centers on non-accelerator particle physics, particle astrophysics, and low temperature physics. In particular, his work is on the development, construction, and operation of new detectors using liquefied noble gases, which are useful in looking for physics beyond the Standard Model. Applications include the search for dark matter interactions with ordinary matter, searches for neutrinoless double beta decay, and the measurement of the low energy solar neutrino flux. He is especially interested in the physics of the response of liquefied noble gases to particle interactions, the calibration of these detectors so as to understand their response, and the overall development of new experimental techniques for reaching sensitivity to extremely rare, low-energy particle interactions. Other interests include the use of liquid xenon for gamma-ray imaging, and the visualization of turbulence in superfluid helium[7]

gollark: You're welcome. Your soul may be harvested as thanks.
gollark: ℵ₀ you.
gollark: Use the magnetron for extreme WiFi™.
gollark: This will be converted into accursed JavaScript to fuel our reactors.
gollark: Less ability to apify it all at once for optimisation?

References

  1. The LUX experiment main page at Sanford Underground Research Facility https://sanfordlab.org/experiment/lux-experiment
  2. Daniel McKinsey's home page at UC Berkeley https://physics.berkeley.edu/people/faculty/daniel-mckinsey
  3. McKinsey, Daniel (February 2002). "Detection of Magnetically Trapped Neutrons: Liquid Helium as a Scintillator" https://ab-div-bdi-bl-blm.web.cern.ch/ab-div-bdi-bl-blm/Literature/diamonds/scintillation_He_Danthesis.pdf
  4. Princeton Society of Fellows https://sf.princeton.edu/people/daniel-mckinsey
  5. Yale University Physics Department Page https://physics.yale.edu/people/daniel-mckinsey
  6. Report of the Particle Physics Project Prioritization Panel (P5) https://news.fnal.gov/wp-content/uploads/p5-report-2014.pdf
  7. List of Publications of The McKinsey Research Group (Yale University) https://physics.berkeley.edu/sites/default/files/_/PDF/mckinsey_publications.pdf
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.