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Do We Live in a Computer Simulation? UW Researchers Say Idea Can be Tested

By Guest PostDecember 12, 2012Scienceatom, belief, binds subatomic particles, british philosopher, computer model, computer simulation, concept, cosmic rays, evolutionary history, four dimensional grid, fundamental forces, gluons, human species, lattice quantum chromodynamics, martin savage, model, molecule, Nature, neutrons, nick bostrom, notion, nucleus, parallel universe, physical laws, posthuman civilization, posthuman stage, potential test, primitive simulations, protons, quarks, scale, silas beane, small scale simulations, space time continuum, supercomputers, technique, universe, university of oxford, university of washington, zohreh davoudi

A decade ago, a British philosopher put forth the notion that the universe we live in might in fact be a computer simulation run by our descendants. While that seems far-fetched, perhaps even incomprehensible, a team of physicists at the University of Washington has come up with a potential test to see if the idea holds water.

The concept that current humanity could possibly be living in a computer simulation comes from a 2003 paper published in Philosophical Quarterly by Nick Bostrom, a philosophy professor at the University of Oxford. In the paper, he argued that at least one of three possibilities is true:

The human species is likely to go extinct before reaching a “posthuman” stage.
Any posthuman civilization is very unlikely to run a significant number of simulations of its evolutionary history.
We are almost certainly living in a computer simulation. (more…)

When Matter Melts

By Guest PostJune 27, 2011Scienceantiproton collisions, balance of matter and antimatter, bedangadas mohanty, berkeley lab, CERN, color force, critical point, distribution of ordinary matter, elemental constituents of matter, geneva, gluons, hadronic matter, hans georg ritter, heavy ions, India, kolkata, Large Hadron Collider, lattice theory, massive gold nuclei, neutrons, nu xu, phase diagrams, protons, qcd, quantum chromodynamics, quark gluon plasma, relativistic heavy ion collider, rhic, sourendu gupta, tata institute of fundamental research, universe, variable energy cyclotron centre, xiaofeng luo

*By comparing theory with data from STAR, Berkeley Lab scientists and their colleagues map phase changes in the quark-gluon plasma*

In its infancy, when the universe was a few millionths of a second old, the elemental constituents of matter moved freely in a hot, dense soup of quarks and gluons. As the universe expanded, this quark–gluon plasma quickly cooled, and protons and neutrons and other forms of normal matter “froze out”: the quarks became bound together by the exchange of gluons, the carriers of the color force.

“The theory that describes the color force is called quantum chromodynamics, or QCD,” says Nu Xu of the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab), the spokesperson for the STAR experiment at the Relativistic Heavy Ion Collider (RHIC) at DOE’s Brookhaven National Laboratory. “QCD has been extremely successful at explaining interactions of quarks and gluons at short distances, such as high-energy proton and antiproton collisions at Fermi National Accelerator Laboratory. But in bulk collections of matter – including the quark-gluon plasma – at longer distances or smaller momentum transfer, an approach called lattice gauge theory has to be used.” (more…)

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Do We Live in a Computer Simulation? UW Researchers Say Idea Can be Tested

When Matter Melts