1 / 34

The Nature of Time Travel

The Nature of Time Travel. Xiaolong Shawn Liu Dinna Ramlan David Simons. Overview. Introduction Worm Holes Paradoxes Feasibility. Introduction. In many science fiction books/movies one can often find the story of people traveling backward or forward in time

mizell
Download Presentation

The Nature of Time Travel

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 Nature of Time Travel Xiaolong Shawn Liu Dinna Ramlan David Simons

  2. Overview • Introduction • Worm Holes • Paradoxes • Feasibility

  3. Introduction • In many science fiction books/movies one can often find the story of people traveling backward or forward in time • Who among us has not seen “Back to the Future” • What is really allowed if one were to take into account the laws of physics? Is it allowed?

  4. How Would We Do It? • Special Relativity Theories by Einstein • Time slows down if you go really really really really really fast (e.g. >95% the speed of light) • But…mass at these speeds becomes infinite • This still doesn’t get you backwards in time • In 1935, Albert Einstein and Nathan Rose realized that general relativity allowed the existence of “bridges,” originally called Einstein-Rosen bridges but are now called wormholes. Will this work???

  5. Definition of a Wormhole • A geometry of 4-dimensional space time in which two regions of the universe are connected by a narrow throat • They are hypothetical connections between a black hole and a white hole

  6. Wormholes Cont… • Black Hole: everything (and I do mean everything) is sucked into a black hole with an inescapable gravitational force • White Hole: this will take a little more explaining…

  7. White Holes Cont… • Theoretical opposite of a black hole • Not impossible to escape but impossible to reach • Repels everything (including massive particles and photons) and nothing can ever enter them • We have not yet observed one

  8. Wormholes Cont… • They can provide relatively easy means of traveling distant regions of space or even backwards in time • By journeying through a wormhole, you could travel between two regions faster than a normal beam of light would be able to in normal space time

  9. Challenges to Transverse Wormholes • Worm holes are not static structures • It’s a shape that expands from zero throat radius and then back to zero • Even light won’t make it through in time

  10. Challenges Cont… • Travel through one may be extremely challenging because any object thrown in would pull the wormhole together through gravity • We would need matter with negative energy density (the magnitude of the tension of the matter must be greater than the energy density of the matter itself) to stabilize the opening • “Exotic matter” is required (we have not yet found it yet but is not unproven under the laws of physics)

  11. Implications of Traveling Through a Wormhole • One of the wormhole mouths is placed in Tech and another mouth is placed at Norris • Shawn and David get in the time machine, travel away from the earth at 5:00 pm 6/4/03 at nearly the speed of light from Tech • Dinna stays in Norris, waiting for them to return

  12. Implications Cont… • Shawn and David return after 12 hours of their time but Dinna has gone through 10 years of her life (Twin Paradox) • From the mouth at Tech, Dinna can see her younger self at Norris. • The wormhole forms a “loop”

  13. Causality • Law of identity applied to action • The relationship between causes and effects • Events must be in the order of causes then follow by effects

  14. Paradox • A statement that is seemingly contradictory or opposed to common sense and yet is perhaps true (from Merriam-Webster Dictionary) • Violates the law of causality • Argument that time traveling is impossible • Can be broken down into: matricide paradox, Polchinski paradox, and the free-lunch paradox

  15. Matricide Paradox • Also known as grandfather paradox • A time traveler goes back in time to kill his young grandfather • His success means that he could never have existed in the first place

  16. Polchinski Paradox • Also known as billiard ball paradox • Utilizes time travel to prevent time travel from occurring • Ball is launched from the right hole and gets out from the left before it enters the right hole • It “collides” with itself to “deflect” himself so that it misses the time machine

  17. Free-Lunch Paradox • Leonardo da Vinci travels back in time to meet his younger self and gives him the portrait of Mona Lisa • Young Leonardo gets a free lunch without putting any effort in drawing the portrait • Where is the origin of the portrait?

  18. Resolution to Paradoxes • Parallel universe or multi-verse • Chronology protection conjecture • Entanglement theory

  19. Parallel Universe or Multi-verse • Theory by Dr. Hugh Everett, III • Wormholes do not necessarily connect to our own universe • Consider the wave function as real object • Specifying the state of one system leads to a unique specification of the state of the other subsystems • Each system only observing one of the possible results of a measurement and unaware of the other results • All outcomes exist simultaneously but do not interact with each other • Each universe is mutually unobservable but are equally real worlds

  20. Chronology Protection Conjecture • Theory by Stephen Hawking • The law of physics conspire to prevent time travel by macroscopic objects • Universe will react in such a way as to destroy the time machine that tries to get into the wormhole • When someone tries to kill his young grandfather, he misses his shot and only hits his grandfather’s leg

  21. Entanglement Theory • Your grandfather is represented as a pure quantum state vector • All the men at that time are “indistinguishable” • Characterized by their “entanglement” with each other • You cannot recognize your grandfather to kill him

  22. Feasibility Overview • Transversable wormholes permitted  wormholes can be “time machines” • Event Horizon forbidden • Wormholes often require violation of “Weak Energy Condition” • Alternative: Cosmic Strings? • String Theory: Hope for the Future

  23. Requirement: No Event Horizon • Virtual Particles that enter Wormhole could trigger infinite energy density  Destruction! • This is an event horizon, just like a black hole

  24. Terminology • Weak energy condition: The idea that the mass (energy) density in any one frame would always be at least equal to or greater than zero is called the "weak energy condition.” • Averaged Null Energy Conditions (ANEC) synonym for Weak Energy Condition (WEC)

  25. Quantum Mechanics Restrictions • Quantum Mechanics allows for Negative Energy Density! • Quantum Fluctuations make this possible • Wormholes also require Negative Mass, similar to Negative Energy (E = Mc2) • See right for wormhole example

  26. Violations of Averaged Null Energy Conditions • How much “exotic matter” is required? • We know Quantum Mechanics allows some energy condition violations • 2 Possibilities: Do we need • Infinitesimal ANEC violations? • Large WEC (weak energy condition) violations?

  27. Energy Density Theory Results • Only small amounts of ANEC (Averaged Null Energy Conditions) needed! • May 2003 Physical Review Letter: Visser, Kar, and Dadhich • Requires proper geometry choice: Static spherically symmetric space-times • Special circumstance of theory supports idea of time travel

  28. Further Research: Cosmic Strings • Cosmic Strings are under enormous pressure & tension, cross section smaller than an atom • Extremely fast acceleration: accelerate the sun from 0 to 60 miles per hour in 1/30 of a second • The disproportional orientation of the universe makes the existence of these strings highly possible

  29. Cosmic String Theory Results • Interesting case: “Closed Time-like Curves” produced by pairs of moving cosmic strings • Research: Gott, 1991 Exact Solutions to Einstein’s Field Equations for cosmic strings • “Closed Time-like Curves” physics-speak for time travel, produced with cosmic string speeds greater than a certain threshold speed • Research shows in nature these speeds “should be possible!”

  30. Cosmic String Cont… • Advanced Civilization could accelerate separate strings to high speeds by towing with massive rockets • Some Closed Time-like Curves (CTC) do not violate Weak Energy Conditions  even ‘easier’ for CTC to actually happen!

  31. String Theory • If successful, will unite General Relativity and Quantum Theory • Includes 4 dimensions we’re currently familiar with, + 6 very small dimensions • Implications not completely known yet

  32. References • “Black Holes and Time Warps” by Kip S. Thorne, 1994, W.W. Norton & Company. • Time Trips, Black Holes and Relativity website http://www.geocities.com/CapeCanaveral/Hall/5803/index.html • The “big” time travel http://www.anu.edu.au/Physics/courses/A07/studentsites/studentsites2001/The_Big/ • Time travel homepage http://www.anu.edu.au/Physics/courses/A07/studentsites/studentsites2001/Benz_Group/ • The Everett Interpretation http://www.hedweb.com/manworld.htm#believes • Wikipedia, the free encyclopedia http://www.wikipedia.org

  33. References • “The Universe in a Nutshell” by Stephen Hawking, 2001, Bantam Books. • Public Lectures from Website of Stephen Hawking: http://www.hawking.org.uk/lectures/lindex.html • Definition of Weak Energy Condition: http://www.aip.org/enews/physnews/1998/split/pnu398-2.htm • Morris, Thorne, and Yurtsever. Wormholes, Time Machines, and the Weak Energy Condition. Vol 61, Number 13, 26 September 1988 http://prl.aps.org/ • Gott, Richard. Closed Timelike Curves Produced by Pairs of Moving Cosmic Strings: Exact Solutions. Vol 66, Number 9, 4 March 1991. http://prl.aps.org/ • String Theory Overview: http://superstringtheory.com • Visser, Kar, and Dadhich. Traversable Wormholes with Arbitrarily Small Energy Condition Violations, Volume 90, Number 20, 23 May 2003. http://prl.aps.org/

  34. Thank You!!!

More Related