Diquark

Diquark

In quark–diquark models, a diquark, or diquark correlation/clustering, is the hypothetical state of two quarks grouped inside a baryon (that consists of three quarks) (Lichtenberg 1982). The diquark is often treated as a single particle with which the third quark interacts via the strong interaction. The existence of diquarks inside the nucleons is a disputed issue, but it helps to explain some nucleon properties and to reproduce experimental data sensitive to the nucleon structure. Diquark–antidiquark pairs have also been advanced for anomalous particles such as the X(3872).

Contents

Force between diquarks

The forces between the two quarks in a diquark is attractive when both the colors and spins are antisymmetric. When both quarks are correlated in this way they tend to form a very low energy configuration. This low energy configuration has become known as a diquark.

Controversy

Many scientists theorize that a diquark should not be considered a particle. Even though they may contain two quarks they are not colour neutral, and therefore cannot exist as isolated bound states. So instead they tend to float freely inside hadrons as composite entities; while free-floating they have a size of about fm. This also happens to be the same size as the hadron itself.

Uses

Diquarks are the conceptual building blocks, and as such give scientists an ordering principle for the most important states in the hadronic spectrum. There are many different pieces of evidence that prove diquarks are fundamental in the structure of hadrons. One of the most compelling pieces of evidence comes from a recent study of baryons. In this study the baryon had one heavy and two light quarks. Since the heavy quark is inert, the scientists were able to discern the properties of the different quark configurations in the hadronic spectrum.

Λ and Σ baryon experiment

An experiment was conducted using diquarks in an attempt to study the Λ and Σ baryons that are produced in the creation of hadrons created by fast-moving quarks. In the experiment the quarks ionized the vacuum area. This produced the quark–antiquark pairs, which then converted themselves into mesons. When generating a baryon by assembling quarks, it is helpful if the quarks first form a stable two-quark state. The Λ and the Σ are created as a result of up, down and strange quarks. Scientists found that the Λ contains the [ud] diquark, however the Σ does not. From this experiment scientists inferred that Λ baryons are more common than Σ baryons, and indeed they are more common by a factor of 10.

References


Wikimedia Foundation. 2010.

Игры ⚽ Нужна курсовая?

Look at other dictionaries:

  • diquark — noun The hypothetical state of two quarks grouped inside a baryon consisting of three. Some of this attraction is due to the scalar diquark content of the nucleon current …   Wiktionary

  • Charmed baryons — are a category of composite particles comprising all baryons made of at least one charm quark. Since their first observation in the 1970s, a large number of distinct charmed baryon states have been identified. Observed charmed baryons have masses …   Wikipedia

  • Quark star — A quark star or strange star is a hypothetical type of exotic star composed of quark matter, or strange matter. These are ultra dense phases of degenerate matter theorized to form inside particularly massive neutron stars. It is theorized that… …   Wikipedia

  • Fermionic condensate — A fermionic condensate is a superfluid phase formed by fermionic particles at low temperatures. It is closely related to the Bose–Einstein condensate, a superfluid phase formed by bosonic atoms under similar conditions. Unlike the Bose–Einstein… …   Wikipedia

  • Three-body force — A conjectural example of an interaction between two neutrons and a proton, the triton or hydrogen 3, which is beta unstable. An example of a stable 3 body interaction would be between two protons and one neutron, the helium 3 isotope A three body …   Wikipedia

  • Exotic hadron — Exotic hadrons are subatomic particles made of quarks (and possibly gluons), but which do not fit into the usual schema of hadrons. While bound by the strong interaction they are not predicted by the simple quark model. That is, exotic hadrons do …   Wikipedia

  • Pervez Hoodbhoy — Infobox Scientist name = Pervez Hoodbhoy caption = birth date = birth date and age|1950|07|11 birth place = Karachi, Pakistan death date = death place = residence = Islamabad, Pakistan nationality = Pakistani field = Particle physics work… …   Wikipedia

  • X(3872) — The X(3872) is an anomalous particle which does not fit into the quark model because of its quantum numbers. It was discovered by the Belle experiment in Japan and later confirmed by several other experimental collaborations. Several theories… …   Wikipedia

  • Pentaquark — Saltar a navegación, búsqueda Un pentaquark es una partícula subatómica compuesta por un grupo de cinco quarks (en este sentido es rara respecto a los tres quarks normales de los bariones y a los dos de los mesones). Más precisamente, un… …   Wikipedia Español

  • antidiquark — noun The antiparticle of the diquark …   Wiktionary

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”