1 / 15

Eightfold Way (old model)

Eightfold Way (old model). GELL MANN - NISHIJIMA FORMULA RELATING CHARGE TO ISOSPIN Q = I 3 + ½( B + S ) B = baryon number, S = strangeness Q = charge (in units of e, the electronic charge ) Y = B + S was called hypercharge. I 3 = “z component” of ISOSPIN. Iso -Spin.

boaz
Download Presentation

Eightfold Way (old model)

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. Eightfold Way (old model) GELL MANN - NISHIJIMA FORMULA RELATING CHARGE TO ISOSPIN Q = I3 + ½(B + S) B = baryon number, S = strangeness Q = charge (in units of e, the electronic charge) Y = B + S was called hypercharge. I3 = “z component” of ISOSPIN

  2. Iso-Spin It was discovered that particles with approximately the same mass, and the same (ordinary) spin existed in “charge multiplets”: p and n I3 = ½, - ½ (a doublet) ∏+ ∏- ∏0  I3 = 1, -1, 0 (a triplet) number of states = 2I +1

  3. quark triplets • Gell-Mann and others proposed that one might build all the experimentally observed particles from just three quarks: the up, the down and the strange. • One way to “build” the particles is to think of the quarks as vectors in a two dimensional “imagined” space with Y along the vertical axis and I3 along the horizontal axis. • The quark triplet is shown on the next slide.

  4. The Quark Triplet Q = I3 + ½(B + S) Y=B+S -1/3 I3 - -2/3 -

  5. 8-fold way plots • One can generate particle multiplets by adding the u, d and s vectors in this two dimensional space. • Adding three (e.g. u + d + s ) vectors will generate multiplets with 10, 8, 8 and 1 particles, called decuplets, octets and singlets. The decuplet is shown on the next slide.

  6. I3 You can build 10 particles out of three quarks. Note I3 symmetry.

  7. Try it yourself!

  8. baryon decuplet

  9. Real, physical particles were found to match the baryon decupletproperties: all have spin = 3/2and about the same mass

  10. baryon octet

  11. Experimentally discovered particles “matched” the baryon octet properties: all have spin = ½ and about the same mass

  12. building mesons • One can build mesons from quarks by adding quark and anti-quark vectors. • The anti-quark vector is just a vector pointing in the opposite direction. • Adding vectors in this way results in one octet (8 particles) and a singlet (one particle). • A plot of the meson octet is shown in the next slide.

  13. meson octet: 8-fold way plot

  14. Experimentally discovered particles “matched” the meson octet properties: all have spin = 0and about the same mass

  15. Comments • The 8-fold way “cataloged” for the first time the particles w.r.t. spin, mass,charge, using quarks as the constituent elementary particle. • While the physical SU(3) symmetry which generated the model is only approximate, mathematical SU(3) models later took on a special importance. • Gell-Mann won a Nobel Prize for his 8-fold way model.

More Related