Physics:GIM mechanism

In particle physics, the Glashow–Iliopoulos–Maiani (GIM) mechanism is the mechanism through which flavour-changing neutral currents (FCNCs) are suppressed in loop diagrams. It also explains why weak interactions that change strangeness by 2 (ΔS = 2 transitions) are suppressed, while those that change strangeness by 1 (ΔS = 1 transitions) are allowed, but only in charged current interactions. It is named after physicists Sheldon Glashow, John Iliopoulos and Luciano Maiani.

The mechanism was put forth in a famous paper by Glashow, Iliopoulos & Maiani (1970) harv error: no target: CITEREFGlashowIliopoulosMaiani1970 (help);^[1] at that time, only three quarks (up, down, and strange) were thought to exist. James Bjorken and Glashow [Bjorken & Glashow (1964) harv error: no target: CITEREFBjorkenGlashow1964 (help)] had previously predicted a fourth quark,^[2] but there was little evidence for its existence. The GIM mechanism however, required the existence of a fourth quark, and the prediction of the charm quark is usually credited to Glashow, Iliopoulos, and Maiani (initials "G. I. M.").^[1]

The mechanism relies on the unitarity of the charged weak current flavor mixing matrix, which enters in the two vertices of a one-loop box diagram involving W boson exchanges. Even though Z⁰ boson exchanges are flavor-neutral (i.e. prohibit FCNC), the box diagram induces FCNC, but at a very small level. The smallness is set by the mass-squared difference of the different virtual quarks exchanged in the box diagram, originally the u or c quarks, on the scale of the W mass.

The smallness of this quantity accounts for the suppressed induced FCNC, dictating a rare decay, ${\displaystyle K_L\to {\mu }^{+}{\mu }^{-},}$ illustrated in the figure. If that mass difference were ignorable, the minus sign between the two interfering box diagrams (itself a consequence of unitarity of the Cabibbo matrix) would lead to a complete cancellation, and thus a null effect.

• "Chapter 14   Standard Model and confrontation with data". Introduction to Nuclear and Particle Physics (2nd ed.). Singapore: World Scientific. 2006. pp. 345ff. ISBN 981-238-744-7. OCLC 849916889. https://archive.org/details/introductiontonu0000dasa_a6y8/page/345. Retrieved 2024-08-20. 
• "Glashow–Iliopoulos–Maiani mechanism". Scholarpedia 5 (5): 7125. 2010. doi:10.4249/scholarpedia.7125. Bibcode: 2010SchpJ...5.7125I. 
• Popescu, Bogdan F. (February 2006). "Weak interactions (1)". University of Cincinnati. pp. 45–48. http://www.physics.uc.edu/~popescu/ppt/weak1.ppt. 

0.00 (0 votes) Original source: https://en.wikipedia.org/wiki/GIM mechanism. Read more