But no one has yet gotten the trick to work.Please join us in our historic parlor for the Sunday Afternoon Concert Series at the Loring Greenough HouseĬombining idiomatic flexibility, a deep wellspring of creativity, and world-class virtuosity, violinist Mimi Rabson is one of the Boston area’s most valuable musical resources - and her new recording with her Strings Theory Trio is a uniquely compelling synthesis of classical chamber music and directed improvisation, bringing together some of Rabson's most important influences and inspirations. Asymptotically safe gravity, for instance, suggests that the strength of gravity might change as you go to smaller scales in such a way as to cure the infinity-plagued calculations. The distant competitors include asymptotically safe gravity, E8 theory, noncommutative geometry, and causal fermion systems. (According to Simmons-Duffin, none of the competitors have managed to complete the first step, or first “quantum correction,” of this calculation.) One philosopher has even argued that string theory’s status as the only known consistent theory counts as evidence that the theory is correct. Other TOE ideas, meanwhile, are seen as having a variety of technical problems, and none have yet repeated string theory’s demonstrations of mathematical consistency, such as the graviton-graviton scattering calculation. And some macroscopic signatures of the theory that might have been seen, such as cosmic strings and supersymmetry, have not shown up. The strings it posits-as well as extra, curled-up spatial dimensions that these strings supposedly wiggle around in-are 10 million billion times smaller than experiments like the Large Hadron Collider can resolve. Whether the theory is correct is an altogether separate question. This basic sequence of events has led most experts to consider M-theory the leading TOE candidate, even as its exact definition in a universe like ours remains unknown. The 16,000 papers that have cited Maldacena’s over the past 20 years mostly aim at carrying out these calculations in order to gain a better understanding of AdS/CFT and quantum gravity. For such imaginary worlds, physicists can describe processes at all energies, including, in principle, black-hole formation and evaporation. AdS/CFT gives a complete definition of M-theory for the special case of AdS space-time geometries, which are infused with negative energy that makes them bend in a different way than our universe does. “Witten could make these arguments without writing down the equations of M-theory, which is impressive but left many questions unanswered,” explained David Simmons-Duffin, a theoretical physicist at the California Institute of Technology.Īnother research explosion ensued two years later, when the physicist Juan Maldacena discovered the AdS/CFT correspondence: a hologram-like relationship connecting gravity in a space-time region called anti–de Sitter (AdS) space to a quantum description of particles (called a “conformal field theory”) moving around on that region’s boundary. M-theory looks like each of the string theories in different physical contexts but does not itself have limits on its regime of validity-a major requirement for the theory of everything. He found various indications that the perturbative string theories fit together into a coherent non-perturbative theory, which he dubbed M-theory. Then, in 1995, the physicist Edward Witten discovered the mother of all string theories. Theorists could calculate what happens when two graviton strings collide at high energies, but not when there’s a confluence of gravitons extreme enough to form a black hole. But the five known versions of string theory were all “perturbative,” meaning they broke down in some regimes. Interest in string theory soared in the mid-1980s, when physicists realized that it gave mathematically consistent descriptions of quantized gravity. The theory famously posits that gravitons, as well as electrons, photons, and everything else, are not point particles but rather imperceptibly tiny ribbons of energy, or “strings,” that vibrate in different ways.
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