1 / 13

Bose Einstein Condensation

Bose Einstein Condensation. In Diluted Gas. Condensed Matter II –Spring 2007 Davi Ortega. Summary. From counting to a new state of matter Indistinguishability of particles Counting indistinguishable particles Einstein’s conclusion = New State Some properties

jemima-schneider
Download Presentation

Bose Einstein Condensation

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. Bose Einstein Condensation In Diluted Gas Condensed Matter II –Spring 2007 Davi Ortega

  2. Summary • From counting to a new state of matter • Indistinguishability of particles • Counting indistinguishable particles • Einstein’s conclusion = New State • Some properties • BEC in Dilute Gases and Liquid Helium • Experiments to achieve the BEC. • News

  3. Average number of occupation for each energy state (Boson Case) Statistics of Idea Gas • Two Particles Gas: A and B. Distinguishable Particles Indistinguishable Particles Fermions: Cannot occupy the same level Bosons: Can occupy the same level Classical

  4. Some Theory Particle in a 3D box: Calculating explicitly the total number:

  5. More Theory But what happens now if I let at this temperature the density n V of the substance increase(e.g., by isothermal compression) to even higher values? I claim that in this case a number of molecules which always grows with the total density makes a transition to the 1. quantum state (state without kinetic energy)… … The claim thus asserts that something similar happens as when isothermally compressing a vapor beyond the volume of saturation. A separation occurs; a part “condenses”, the rest remains a “saturated ideal gas”. (Einstein, 1925).

  6. Two more useful results The order of the de Broglie wavelenght is the same as the volume ocupied by the ensemble Number of the particles that falls to the “condensate” state

  7. An Last statement This whole theory assume non interacting particles: Schrödinger Equation Interacting Particles: Gross-Pitaeviski Eq.

  8. Achievements • 1938 – Pyotr Kapitsa John Allen and Don Misener: Helium 4 • 1995 – Eric Cornell and Carl Wieman: Rb87: Pure BEC. • 1995 – Wolfgang Ketterle Na23. (4 months later)

  9. Liquid He vs. Diluted Gas • Strong Interactions in He qualitatively changes the nature of transition. • Diluted Gas • Pure Condensate state • Liquid Helium • Zero Viscosity • And other strange properties.

  10. How to make a BEC ? • Heat the atoms: 600 K (gas) • Confine them in a beam • Decelerate the beam • Trap the atoms (Magneto Optical Trap) • Magnetic Trapping (avoid atoms recoil by spontaneous emission and random absorption) • Evaporative Cooling

  11. Famous Picture

  12. Any other way ?! YES Michael Chapman All Optical BEC

  13. Current Research • BEC achieved in several atoms. • Strange Properties: • Superfluidity • Slowing of light • Wave-like phenomena in atoms. • Interference between two condensates. • Atom Laser • Coherent Matter Waves

More Related