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Charm quark

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Title: Charm quark  
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Subject: Omega baryon, List of mesons, Sigma baryon, D meson, Quark
Collection: Elementary Particles, Quarks
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Charm quark

Charm quark
Composition Elementary particle
Statistics Fermionic
Generation Second
Interactions Strong, Weak, Electromagnetic force, Gravity
Symbol c
Antiparticle Charm antiquark (c)
Theorized Sheldon Glashow,
John Iliopoulos,
Luciano Maiani (1970)
Discovered Burton Richter et al. (SLAC)
Samuel Ting et al. (BNL)
Mass 1.29+0.05
Decays into Strange quark (~95%), Down quark (~5%)[2][3]
Electric charge +23 e
Color charge Yes
Spin 12
Weak isospin LH: +12, RH: 0
Weak hypercharge LH: +13, RH: +43

The charm quark or c quark (from its symbol, c) is the third most massive of all quarks, a type of elementary particle. Charm quarks are found in hadrons, which are subatomic particles made of quarks. Example of hadrons containing charm quarks include the J/ψ meson (J/ψ), D mesons (D), charmed Sigma baryons (Σ
), and other charmed particles.

It, along with the strange quark is part of the second generation of matter, and has an electric charge of +23 e and a bare mass of 1.29+0.05
.[1] Like all quarks, the charm quark is an elementary fermion with spin-12, and experiences all four fundamental interactions: gravitation, electromagnetism, weak interactions, and strong interactions. The antiparticle of the charm quark is the charm antiquark (sometimes called anticharm quark or simply anticharm), which differs from it only in that some of its properties have equal magnitude but opposite sign.

The existence of a fourth quark had been speculated by a number of authors around 1964 (for instance by James Bjorken and Sheldon Glashow[4]), but its prediction is usually credited to Sheldon Glashow, John Iliopoulos and Luciano Maiani in 1970 (see GIM mechanism).[5] The first charmed particle (a particle containing a charm quark) to be discovered was the J/ψ meson. It was discovered by a team at the Stanford Linear Accelerator Center (SLAC), led by Burton Richter,[6] and one at the Brookhaven National Laboratory (BNL), led by Samuel Ting.[7]

The 1974 discovery of the J/ψ (and thus the charm quark) ushered in a series of breakthroughs which are collectively known as the November Revolution.


  • Hadrons containing charm quarks 1
  • See also 2
  • Notes 3
  • Further reading 4

Hadrons containing charm quarks

Some of the hadrons containing charm quarks include:

See also


  1. ^ a b K. Nakamura et al. ( 
  2. ^ Carl Rod Nave. "Transformation of Quark Flavors by the Weak Interaction". Retrieved 2010-12-06. The c quark has about 5% probability of decaying into a d quark instead of an s quark. 
  3. ^ K. Nakamura; et al. (2010). "Review of Particles Physics: The CKM Quark-Mixing Matrix" (PDF). J. Phys. G 37 (75021): 150. 
  4. ^ B.J. Bjorken, S.L. Glashow; Glashow (1964). "Elementary particles and SU(4)".  
  5. ^ S.L. Glashow, J. Iliopoulos, L. Maiani; Iliopoulos; Maiani (1970). "Weak Interactions with Lepton–Hadron Symmetry".  
  6. ^ J.-E. Augustin; Boyarski, A.; Breidenbach, M.; Bulos, F.; Dakin, J.; Feldman, G.; Fischer, G.; Fryberger, D.; Hanson, G.; Jean-Marie, B.; Larsen, R.; Lüth, V.; Lynch, H.; Lyon, D.; Morehouse, C.; Paterson, J.; Perl, M.; Richter, B.; Rapidis, P.; Schwitters, R.; Tanenbaum, W.; Vannucci, F.; Abrams, G.; Briggs, D.; Chinowsky, W.; Friedberg, C.; Goldhaber, G.; Hollebeek, R.; Kadyk, J.; Lulu, B. (1974). "Discovery of a Narrow Resonance in e+e Annihilation".  
  7. ^ J.J. Aubert; et al. (1974). "Experimental Observation of a Heavy Particle J".  

Further reading

  • R. Nave. "Quarks".  
  • A. Pickering (1984). Constructing Quarks.  

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