We have partnered with our collaborators at Cardiff University to design a state-of-the-art experiment which can test our latest theories. This experiment will use novel quantum technologies to reach sensitivities an order of magnitude higher than those of our earlier experiment, the Holometer The Cardiff team is part of the "Quantum-enhanced Interferometry for New Physics" (QI) consortium (pictured), under the U.K. Research and Innovation's Quantum Technologies for Fundamental Physics programme.  Commissioning is well underway, so stay tuned for more updates!
  • Lorenzo Aiello
  • Katherine L. Dooley
  • Aldo Ejlli
  • William L. Griffiths
  • Hartmut Grote (Principal Investigator)
  • Robert Hadfield (University of Glasgow)
  • Craig J. Hogan (University of Chicago)
  • Alasdair L. James
  • Ohkyung Kwon (University of Chicago) 
  • Sander M. Vermeulen
We previously conducted a seminal 11-year research program, the Holometer, opening up a new field of research searching for empirical signatures of quantum space-time in this experimental regime predicted by holographic total information content.
  • Aaron S. Chou (Fermilab)
  • H. Richard Gustafson (University of Michigan)
  • Craig J. Hogan (Fermilab and University of Chicago)
  • Brittany L. Kamai (Caltech)
  • Ohkyung Kwon (University of Chicago)
  • Robert K. Lanza (MIT)
  • Lee P. McCuller (MIT)
  • Stephan S. Meyer (University of Chicago)
  • Jonathan W. Richardson (Caltech)
  • Christopher Stoughton (Fermilab)
  • Raymond E. Tomlin (Fermilab)
  • ​Rainer Weiss (MIT)