-
resembling two
baryons bound together (a
dibaryon), or
three quarks and
three antiquarks. Once formed,
dibaryons are
predicted to be
fairly stable by the...
- (four
valence quarks) and
hexaquarks (six quarks,
consisting of
either a
dibaryon or
three quark-antiquark pairs)
would be
considered exotic mesons. Tetraquark...
-
possible tetraquarks (4 quarks) and
hexaquarks (6 quarks,
comprising either a
dibaryon or
three quark-antiquark pairs) may have been
discovered and are being...
- for the
existence of a new type of
hadronic matter -
narrow dibaryon resonances (
dibaryon). He
discovered the
presence of
local properties within nuclear...
- M.; Brodsky, S. J.; Clement, H. (2013). "Novel Six-Quark Hidden-Color
Dibaryon States in QCD".
Physics Letters B. 727 (4–5): 438. arXiv:1308.6404. Bibcode:2013PhLB...
- (ADMX) at the
University of
Washington in
early 2018. In 2014, a
potential dibaryon was
detected at the Jülich
Research Center at
about 2380 MeV. The center...
-
predicted using lattice QCD in 2018; in particular, the proton–Ω and Ω–Ω
dibaryons (bound
systems containing two baryons) are
expected to be stable. As of...
- four-quark
state with
strangeness (qsqs).
Robert L.
Jaffe 1977
suggested the H
dibaryon, a six-quark
state with
equal numbers of up-, down-, and
strange quarks...
- as spectroscopy), and
hunts for
exotic forms such as
pentaquarks and
dibaryons.
Being baryons, all
hyperons are fermions. That is, they have half-integer...
-
baryonic resonances and
decays whilst searching for the double-strange
dibaryon H. The WA89
experiment consisted of a
beamline and a
forward spectrometer...