Strange quark

Strange quark
Strange quark
CompositionElementary particle
StatisticsFermionic
FamilyQuark
GenerationSecond
Interactionsstrong, weak, electromagnetic force, gravity
Symbol
s
AntiparticleStrange antiquark (
s
)
TheorizedMurray Gell-Mann (1964)
George Zweig (1964)
Discovered1968, SLAC
Mass95+9
−3
 MeV/c2
[1]
Decays intoUp quark
Electric charge1/3 e
Color chargeYes
Spin1/2 ħ
Weak isospinLH: −1/2, RH: 0
Weak hyperchargeLH: 1/3, RH: −2/3

The strange quark or s quark (from its symbol, s) is the third lightest of all quarks, a type of elementary particle. Strange quarks are found in subatomic particles called hadrons. Examples of hadrons containing strange quarks include kaons (
K
), strange D mesons (
D
s
), Sigma baryons (
Σ
), and other strange particles.

According to the IUPAP, the symbol s is the official name, while "strange" is to be considered only as a mnemonic.[2] The name sideways has also been used because the s quark (but also the other three remaining quarks) has an I3 value of 0 while the u ("up") and d ("down") quarks have values of +1/2 and −1/2 respectively.[3]

Along with the charm quark, it is part of the second generation of matter. It has an electric charge of ⁠−+1/3 e and a bare mass of 95+9
−3
 MeV/c2
.[1] Like all quarks, the strange quark is an elementary fermion with spin 1/2, and experiences all four fundamental interactions: gravitation, electromagnetism, weak interactions, and strong interactions. The antiparticle of the strange quark is the strange antiquark (sometimes called antistrange quark or simply antistrange), which differs from it only in that some of its properties have equal magnitude but opposite sign.

The first strange particle (a particle containing a strange quark) was discovered in 1947 (kaons), but the existence of the strange quark itself (and that of the up and down quarks) was only postulated in 1964 by Murray Gell-Mann and George Zweig to explain the eightfold way classification scheme of hadrons. The first evidence for the existence of quarks came in 1968, in deep inelastic scattering experiments at the Stanford Linear Accelerator Center. These experiments confirmed the existence of up and down quarks, and by extension, strange quarks, as they were required to explain the eightfold way.

  1. ^ a b M. Tanabashi et al. (Particle Data Group) (2018). "Review of Particle Physics". Physical Review D. 98 (3): 1–708. Bibcode:2018PhRvD..98c0001T. doi:10.1103/PhysRevD.98.030001. hdl:10044/1/68623. PMID 10020536.
  2. ^ Cohen, Richard E.; Giacomo, Pierre. Symbols, Units, Nomenclature and Fundamental Constants in Physics (PDF) (2010 ed.). IUPAP. p. 12. Archived from the original (PDF) on 18 March 2015. Retrieved 25 March 2017.
  3. ^ McGervey, John D. (1983). Introduction to Modern Physics (second ed.). New York: Academic Press. p. 658. ISBN 978-0-12-483560-3. Retrieved 25 March 2017.