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Strings and Black Holes David Lowe Brown University AAPT/APS Joint Fall Meeting Introduction Perturbative string theory wellunderstood Use this to learn about black holes? Usual string states lead to black holes with singular and/or strongly coupled horizons D-branes Allow for smooth black holes Find microstates responsible for Bekenstein-hawking entropy! David Lowe, Brown University 10/21/00 Same circle of ideas proposals for nonperturbative formulations of string theory • Matrix theory • Maldacena conjecture large N, SU(N) gauge theory in various dimensions Challenge now: learn about string theory by studying gauge theory David Lowe, Brown University 10/21/00 Black Holes Mass M, radius r, space probe mass m 1 2 GMm mv , 2 r 2GM need v 2 . r 2GM So if r 2 c Escape velocity exceeds speed of light! David Lowe, Brown University 10/21/00 Why Do We Care About Black Holes? Astrophysical importance: supernova remnants Galactic cores Binary systems Theoretical point of view: testing ground for quantum gravity many paradoxes – lead to important constraints on theory David Lowe, Brown University 10/21/00 Paradoxes Quantum effects black holes aren’t black Hawking radiation event horizon Et David Lowe, Brown University 10/21/00 Metric: 2GM dr 2 2 ds (1 ) dt 2 GM r (1 ) r r 2 (d 2 sin 2 d 2 ) 2 Imagine virtual particle starts at r 2GM Proper time to hit event horizon t GM E GM Virtual partner gets redshifted, so energy at infinity E E kT GM GM David Lowe, Brown University 10/21/00 Black Hole Entropy Finite temperature finite entropy Compare to usual laws of thermodynamics 1st law dM dA work 2nd law dA 0 Identify A S 4G Famous Bekenstein-Hawking entropy formula David Lowe, Brown University 10/21/00 Challenge Challenge for last 25 years Find the microstates S k log( # microstate s) Still unsolved problem in general One of great successes of string theory Can describe microstates for BPS or near BPS black holes New nonperturbative formulations of string theory May lead to complete understanding David Lowe, Brown University 10/21/00 Black Holes in String Theory Strominger and Vafa: find a black hole that you can describe using perturbative string theory G 0 Make sure it becomes a nonsingular black hole when it becomes macroscopic GM s Use supersymmetry to prove entropy doesn’t depend on G when written in terms of charges David Lowe, Brown University 10/21/00 D-branes Key ingredient: D-branes Polchinski David Lowe, Brown University 10/21/00 Counting black hole microstates Use D-5branes, D-1branes and Kaluza-Klein momentum to make a charged 5d black hole David Lowe, Brown University 10/21/00 n5 D - 5branes n1 D - 1branes nKK Kaluza - Klein momentum To count black hole microstatessolve a simple counting problem Have n1n5 species of massless particles in 1+1d Want to count number of states with total energy nKK Answer agrees exactly with Bekenstein-Hawking formula S 2 n1n5nKK David Lowe, Brown University 10/21/00 Nonperturbative String Theory Try to formulate nonperturbative string theory/M-theory by taking N coincident D-branes and then adjusting the coupling G so gravity decouples Left with QFT on the brane Argue there is a duality Large N QFT secretly describes full string theory that contains gravity David Lowe, Brown University 10/21/00 Maldacena Conjecture Conjecture: large N SU(N) gauge theory with 16 SUSY’s is dual to string theory in a background that is anti-de Sitter space X sphere Need to take ‘t Hooft limit N , GN fixed, but large Dimensional analysis Get Bekenstein-Hawking entropy right to within an overall factor To do better requires strong coupling gauge theory calculations David Lowe, Brown University 10/21/00 Large N Quantum Mechanics 0+1 dimensional version of Maldacena conjecture SU(N) gauged quantum mechanics at large N dual to 9+1 dimensional curved spacetime Simple enough that the conjecture can be directly tested by doing quantum mechanics calculations Kabat, Lifschytz and Lowe: mean field approximation valid in large N limit David Lowe, Brown University 10/21/00 Mean field solution Comparison of mean field solution to Bekenstein-Hawking result for free energy Title: Creator: Mathematic a-PSRender Prev iew : This EPS picture w as not s av ed w ith a preview inc luded in it. Comment: This EPS picture w ill print to a Pos tSc ript printer, but not to other ty pes of printers. Works well in limited range of Hawking temperature David Lowe, Brown University 10/21/00 Open Questions Understanding of microscopic origin of universal Bekenstein-Hawking formula still open problem Have a good chance to understand this using string theory Independent of details of vacuum structure Dynamical questions Black hole information problem David Lowe, Brown University 10/21/00
