logging in or signing up Pune Contr QM 05 Mikhail Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 54 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Gerard ’t Hooft: Galileo Galilei Colloquium, Pisa, March 3, 2006 Gerard ’t Hooft Utrecht UniversityBANG !!: BANG !!Slide10: curved space and time heavy planet Gravity = free fall in curved space-timeSlide11: A Black HoleSlide12: Universe I Universe II Black HoleSlide13: The part of the universe that we know contains about particles Only a small fraction of them are of the kind that build up the world that is familiar to usSlide14: The Universe of the sub-atomic particlesSlide15: Quantum MechanicsUnification : ? 10 Unification 0 2 4 6 8 10 12 14 16 18 20 30 40 50 60 Super Symmetry SU (5) Unification ?The highway across the desert: The highway across the desert GUTsSlide18: The Photon Spin = 1 Spin = 2 Equal charges repel one another ... Equal masses attract one another ... The GravitonGravity becomes more important at extremely tiny distance scales !: Gravity becomes more important at extremely tiny distance scales ! However, mass is energy ... Slide20: Planck UnitsSlide21: Earth strength of force This is the wave function of a spin 2 particle Graviton Force and spin Slide22: When gravity becomes strong: - space-time fluctuations run out of control: infinities - the definition of time becomes ambiguous: one cannot talk of “the state of the universe at a given time”. - the universe might close into itself, in which case the use of quantum mechanics becomes ambiguous. - notions such as “distance” and “locality” become ambiguous super string theory? Wheeler – DeWitt equ’n? Statistics of universes ? Non-local theories ? bad understanding of UV region bad understanding of probability and causality the real universe isn’t closed ... and what about reduction ?microscopic black holes: microscopic black holes Where does the gravitational field become as strong as it ever can get ?Slide25: negative energy positive energy horizon Region I Region II Slide26: The black hole as an information processing machineSlide27: Are black holes just “elementary particles”? Black hole “particle” Imploding matter Hawking particles Are elementary particles just “black holes”?Slide28: Region I Region II Horizon The quantum states in regions I and II are coherent. This means that quantum interference experiments in region I cannot be carried out without considering the states in region II But this implies that the state in region I is not a “pure quantum state”; it is a probabilistic mixture of different possible states ... Slide29: Three competing theories: No scattering, but indeed loss of quantum coherence (problem: energy conservation) 2. After explosion by radiation: black hole remnant (problem: infinite degeneracy of the remnants) 3. Information is in the Hawking radiationSlide30: interaction horizon One must take interactions into account:Slide31: b By taking back reaction into account, one can obtain a unitary scattering matrix Slide32: Particles and horizons, the hybrid pictureSuperSymmetry and SuperGravity: SuperSymmetry and SuperGravity -1 -½ 0 ½ 1 1 1 1 1 1 1 1 1 1 2 1 1 2 1 1 2 1 1 4 6 4 1 1 1 1 1 1 2 1 1 2 1 1 4 6 4 1 1 4 6 4 1 1 8 28 56 70 56 28 8 1 N = 1 N = 2 N = 4 N = 1 N = 2 N = 4 N = 8 SUSY SUGRA -2 -1½ 1½ 2 Spin along z-axisSlide34: “Loop quantum gravity”The SuperString Theory: The SuperString TheoryCould the Planck length be much larger? Do “extra dimensions” exist ?: Could the Planck length be much larger? Do “extra dimensions” exist ? x 4-d world on “D -brane” Horizon of “Big Hole” “Little Hole”Slide37: Type IIA Closed Superstring Super Gravity in 11 dimensions Type I Open Superstring Type IIB Closed Superstring Heterotic String SO(32) Heterotic String E8 x E8 M - theorySlide38: The Landscape x Our Universe ?Slide39: How do we reconcile this with LOCALITY? paradox All degrees of freedom of some section of the universe reside on its BOUNDARY Unitarity, Causality, ... Thie paradoxical behaviour is indeed reproduced in string / membrane theories ! -- at the expense of locality? -- How does Nature process information ?Slide40: Quantum Mechanics is usually seen as a blessing Quantum Mechanics solves the problem of the UV divergence in thermal radiation (Planck, 1900) But Quantum Mechanics generates new infinity problems of its own at the Planck scale ... Could Quantum Mechanics not be replaced by something better there ?Slide42: The Cosmological Constant Problem stretchability very small stiffness very largeSlide44: Super Nova Luminosity against Red ShiftThe cellular automaton: The cellular automatonSlide46: How does God produce random numbers ? Could these random numbers be actually created by “ordinary” physical processes at the Planck scale? Determinism at the Planck length ( cm) Why not ? Simple-minded, “direct” approaches are doomed to fail. Problem that keeps coming up: why is energy always positive ?Slide47: Energy is related to time. If two systems are compared, both energies must be positive (but both being negative could also be allowed) Modest discovery : such a constraint might come about if the two clocks are allowed to be non- synchronous (due to grav. fields), while we have the following restriction: if time goes forward in one system, it must also go forward in the other (and vice versa): Slide48: What is the true nature of space and time ? You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Pune Contr QM 05 Mikhail Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 54 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Gerard ’t Hooft: Galileo Galilei Colloquium, Pisa, March 3, 2006 Gerard ’t Hooft Utrecht UniversityBANG !!: BANG !!Slide10: curved space and time heavy planet Gravity = free fall in curved space-timeSlide11: A Black HoleSlide12: Universe I Universe II Black HoleSlide13: The part of the universe that we know contains about particles Only a small fraction of them are of the kind that build up the world that is familiar to usSlide14: The Universe of the sub-atomic particlesSlide15: Quantum MechanicsUnification : ? 10 Unification 0 2 4 6 8 10 12 14 16 18 20 30 40 50 60 Super Symmetry SU (5) Unification ?The highway across the desert: The highway across the desert GUTsSlide18: The Photon Spin = 1 Spin = 2 Equal charges repel one another ... Equal masses attract one another ... The GravitonGravity becomes more important at extremely tiny distance scales !: Gravity becomes more important at extremely tiny distance scales ! However, mass is energy ... Slide20: Planck UnitsSlide21: Earth strength of force This is the wave function of a spin 2 particle Graviton Force and spin Slide22: When gravity becomes strong: - space-time fluctuations run out of control: infinities - the definition of time becomes ambiguous: one cannot talk of “the state of the universe at a given time”. - the universe might close into itself, in which case the use of quantum mechanics becomes ambiguous. - notions such as “distance” and “locality” become ambiguous super string theory? Wheeler – DeWitt equ’n? Statistics of universes ? Non-local theories ? bad understanding of UV region bad understanding of probability and causality the real universe isn’t closed ... and what about reduction ?microscopic black holes: microscopic black holes Where does the gravitational field become as strong as it ever can get ?Slide25: negative energy positive energy horizon Region I Region II Slide26: The black hole as an information processing machineSlide27: Are black holes just “elementary particles”? Black hole “particle” Imploding matter Hawking particles Are elementary particles just “black holes”?Slide28: Region I Region II Horizon The quantum states in regions I and II are coherent. This means that quantum interference experiments in region I cannot be carried out without considering the states in region II But this implies that the state in region I is not a “pure quantum state”; it is a probabilistic mixture of different possible states ... Slide29: Three competing theories: No scattering, but indeed loss of quantum coherence (problem: energy conservation) 2. After explosion by radiation: black hole remnant (problem: infinite degeneracy of the remnants) 3. Information is in the Hawking radiationSlide30: interaction horizon One must take interactions into account:Slide31: b By taking back reaction into account, one can obtain a unitary scattering matrix Slide32: Particles and horizons, the hybrid pictureSuperSymmetry and SuperGravity: SuperSymmetry and SuperGravity -1 -½ 0 ½ 1 1 1 1 1 1 1 1 1 1 2 1 1 2 1 1 2 1 1 4 6 4 1 1 1 1 1 1 2 1 1 2 1 1 4 6 4 1 1 4 6 4 1 1 8 28 56 70 56 28 8 1 N = 1 N = 2 N = 4 N = 1 N = 2 N = 4 N = 8 SUSY SUGRA -2 -1½ 1½ 2 Spin along z-axisSlide34: “Loop quantum gravity”The SuperString Theory: The SuperString TheoryCould the Planck length be much larger? Do “extra dimensions” exist ?: Could the Planck length be much larger? Do “extra dimensions” exist ? x 4-d world on “D -brane” Horizon of “Big Hole” “Little Hole”Slide37: Type IIA Closed Superstring Super Gravity in 11 dimensions Type I Open Superstring Type IIB Closed Superstring Heterotic String SO(32) Heterotic String E8 x E8 M - theorySlide38: The Landscape x Our Universe ?Slide39: How do we reconcile this with LOCALITY? paradox All degrees of freedom of some section of the universe reside on its BOUNDARY Unitarity, Causality, ... Thie paradoxical behaviour is indeed reproduced in string / membrane theories ! -- at the expense of locality? -- How does Nature process information ?Slide40: Quantum Mechanics is usually seen as a blessing Quantum Mechanics solves the problem of the UV divergence in thermal radiation (Planck, 1900) But Quantum Mechanics generates new infinity problems of its own at the Planck scale ... Could Quantum Mechanics not be replaced by something better there ?Slide42: The Cosmological Constant Problem stretchability very small stiffness very largeSlide44: Super Nova Luminosity against Red ShiftThe cellular automaton: The cellular automatonSlide46: How does God produce random numbers ? Could these random numbers be actually created by “ordinary” physical processes at the Planck scale? Determinism at the Planck length ( cm) Why not ? Simple-minded, “direct” approaches are doomed to fail. Problem that keeps coming up: why is energy always positive ?Slide47: Energy is related to time. If two systems are compared, both energies must be positive (but both being negative could also be allowed) Modest discovery : such a constraint might come about if the two clocks are allowed to be non- synchronous (due to grav. fields), while we have the following restriction: if time goes forward in one system, it must also go forward in the other (and vice versa): Slide48: What is the true nature of space and time ?