Holometer results 2012. It measures the quantum coherence of space-time locations with unprecedented precision, comparable with the smallest interval consistent with gravity and quantum mechanics, the Planck time. Laser light passing through an arrangement of mirrors will show whether space stands still, or whether it always jitters by a tiny amount, carrying all matter with it, due to quantum-geometrical fluctuations. The twin correlated Michelson interferometers perform a holistic measurement of the quantum state of position of bodies over an extended volume of space-time. . The Holographic Interferometer, or Holometer, is a machine designed to test a particular idea about how space, time, matter, and energy behave on the very smallest scales. The experiment is designed not to be affected by normal sloshing of particles. Dec 6, 2013 · Last month the Holometer, Fermilab experiment E-990, reached its design luminosity, building up more than 1 kilowatt of infrared laser power stored in a 40-meter-long Michelson interferometer. Everyone is familiar these days with the blurry and pixelated images, or noisy sound Feb 11, 2015 · The Fermilab Holometer is machine designed to study the properties of space and time at the very smallest scales. The Fermilab Holometer is a new kind of instrument designed to study the quantum character of space itself. Dec 3, 2015 · Measurements are reported of the cross-correlation of spectra of differential position signals from the Fermilab Holometer, a pair of co-located 39 m long, high power Michelson interferometers with flat, broadband frequency response in the MHz range. We shine light in different directions, through tubes 40 meters long, to measure whether space and time stand still, or whether they slosh around a tiny bit. We In a new result 1 Search for space-time correlations from the Planck scale with the Fermilab Holometer released this week after a year of data-taking, the Holometer collaboration has announced that it has ruled out one theory of a pixelated universe to a high level of statistical significance. Feb 5, 2012 · Last year, I mentioned that Hogan got a grant to follow his dreams and is now building his own experiment at Fermilab, the "Holometer," especially designed to detect the holographic noise. The paper documenting our first science results is now published in Physical Review Letters: First Measurements of High Frequency Cross-Spectra from a Pair of Large Michelson Interferometers. Holometer is short for "Holographic Interferometer". If there is a minimum interval of time, or a maximum frequency in nature, there is a corresponding limit on the fidelity of space and time. A new result of the experiment released on December 3, 2015, after a year of data collection, has ruled out Hogan's theory of a pixelated universe to a high degree of statistical significance (4. 6 sigma). It measures the quantum coherence of location with unprecedented precision. The paper documenting our first science results is now published in Physical Review Letters: First Measurements of High Frequency Cross-Spectra from a Pair of Large Michelson Interferometers. Dec 3, 2015 · In a new result released this week after a year of data-taking, the Holometer collaboration has announced that it has ruled out Hogan’s theory of a pixelated universe to a high level of statistical significance. cjyv8 oefx mek bpwjtoa vpsi2 et ijj 0lz oecx 5exugkm