1 / 33

The Pursuit of Unification: Fulfilling Einstein’s Dream

This article explores the concepts of space-time, forces, the Standard Model, gravity, and String Theory in the pursuit of unifying the laws of physics. It discusses how String Theory offers a potential solution to the puzzles of black holes and the existence of extra dimensions.

pricer
Download Presentation

The Pursuit of Unification: Fulfilling Einstein’s Dream

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. The Pursuit of Unification: Fulfilling Einstein’s Dream 2004 N. Seiberg Institute for Advanced Study

  2. Pre-20th Century Physics • Space-time is an arena • Forces: gravity, electric, magnetic Unified Explains almost all phenomena in everyday life.

  3. Example: Billiards

  4. 20th Century Physics • Quantum Theory • Special Relativity • General Relativity

  5. Many intuitive notions changed • Not surprising: • Our intuition is based on every day • experience. • Phenomena at very short distances, very • long distances, fast velocities, etc. - counter • intuitive.

  6. The Standard Model Using Quantum Theory and Special Relativity many phenomena can be described. • Space-time: 3 space + 1 time dimensions • Matter particles: electrons, quarks, neutrinos… • Forces: electromagnetic, strong, weak radioactivity holds protons and neutrons in nuclei

  7. electron electron photon • Forces are carried by other particles: • Electromagnetic by photons • Weak by W and Z • Strong by gluons Action at a distance becomes simpler.

  8. Range of Force = 1/Mass of Carrier • The photon has no mass - electric force has long range. • The W and Z are heavy - weak force has short range.

  9. 1/100000…000 cm! 16 zeros The Standard Model Gives a beautiful and consistent description of all known experiments up to

  10. earth moon graviton Adding Gravity Add another particle, graviton, to mediate the force. Gravity has long range; graviton has no mass.

  11. Adding the graviton leads to nonsense (infinite answers) in the equations!

  12. Gravity = General Relativity = Modification of Space and Time Space and time are no longer a rigid background, a static arena for particles to interact. Space and time become dynamical and curved.

  13. Our billiard table is no longer flat but bumpy. The ball moves on a curved line. Curved space = Gravity

  14. Challenge: Combine General Relativity with the Standard Model. Find a Quantum Theory of curved and dynamical space and time.

  15. String Theory • Invented in the late 60’s as a theory of the strong force. • Had some successes but was replaced by the standard • model and was abandoned. One of its problems was the existence of a particle without mass. But no such particle participates in the strong force.

  16. Mid 70’s: String theory is a theory of gravity! The unwanted particle without mass is now interpreted as the graviton - the particle carrying the gravitational force. Gravity is not an option in string theory. It is a logical consequence of it!

  17. Main idea: the fundamental building blocks are not point-like particles but strings Their small size (1/100000…000 cm) makes them look point-like. 33 zeros

  18. Different shapes of the string (like different notes of a violin string), are different particles. electron quark Very economical!

  19. Strings can split and join

  20. Forces are mediated by exchanging strings Looks from far away Reproduces the old diagrams.

  21. Not easy to verify in experiment In order to see stringy phenomena we need a microscope with resolution of 1/100000…000 cm. 1/100000…000 cm. 16 zeros 33 zeros Resolution of best available accelerators is “only” Need indirect experimental confirmation.

  22. During the past several years there has been tremendous, exciting progress toward understanding the fundamental principles of the theory.

  23. We used to know of several distinct string theories: • Closed strings • Open strings • Others

  24. All these theories are now understood as different descriptions of the same theory. Telling the same story in different languages. The theory is unique!

  25. The theory has extended objects like membranes p-branes: 0-brane = particle 1-brane = string 2-brane = membrane etc.

  26. All p-branes are equally fundamental. String theory is not a theory of strings!

  27. Black Holes and Information • Black holes are a dense form of matter. • The gravitational force is so strong that even light • cannot escape. • No communication between the interior of a • black hole and its exterior is possible.

  28. This leads to various puzzles. Suggestion: All the information about the interior of a black hole is summarized by the state of its surface.

  29. String theory is the only known theory which can solve puzzles associated with black holes! = Recent developments show that in string theory (at least in certain situations) the state of the system is completely characterized by the behavior of its boundary.

  30. Extra Dimensions • In addition to the three space dimensions • there can be more “invisible dimensions” • Small “invisible dimensions” • Large “invisible dimensions”

  31. Small “invisible dimensions” The world is like a garden hose. Our three space dimensions Not easy to detect features around the hose.

  32. Large “invisible dimensions” Extra dimensions Our three space dimensions We are trapped in a brane and cannot “see” the other dimensions.

  33. Summary • String theory is the only candidate for a complete theory of nature. • Ultimate confirmation of the theory will require verification by experiment. • Its fundamental principles are not yet understood - but the past few years have seen tremendous progress.

More Related