Superpartner

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In particle physics, a superpartner (also sparticle) is a class of hypothetical elementary particles predicted by supersymmetry, which, among other applications, is one of the well-studied ways to extend the standard model of high-energy physics.[1][2]

When considering extensions of the Standard Model, the s- prefix from sparticle is used to form names of superpartners of the Standard Model fermions (sfermions),[3] e.g. the stop squark. The superpartners of Standard Model bosons have an -ino (bosinos)[3] appended to their name, e.g. gluino, the set of all gauge superpartners are called the gauginos.

Theoretical predictions[edit]

According to the supersymmetry theory, each fermion should have a partner boson, the fermion's superpartner, and each boson should have a partner fermion. Exact unbroken supersymmetry would predict that a particle and its superpartners would have the same mass. No superpartners of the Standard Model particles have yet been found. This may indicate that supersymmetry is incorrect, or it may also be the result of the fact that supersymmetry is not an exact, unbroken symmetry of nature. If superpartners are found, their masses would indicate the scale at which supersymmetry is broken.[1][4]

For particles that are real scalars (such as an axion), there is a fermion superpartner as well as a second, real scalar field. For axions, these particles are often referred to as axinos and saxions.

In extended supersymmetry there may be more than one superparticle for a given particle. For instance, with two copies of supersymmetry in four dimensions, a photon would have two fermion superpartners and a scalar superpartner.[citation needed]

In zero dimensions it is possible to have supersymmetry, but no superpartners. However, this is the only situation where supersymmetry does not imply the existence of superpartners.[citation needed]

Recreating superpartners[edit]

If the supersymmetry theory is correct, it should be possible to recreate these particles in high-energy particle accelerators. Doing so will not be an easy task; these particles may have masses up to a thousand times greater than their corresponding "real" particles.[1]

Some researchers have hoped the Large Hadron Collider at CERN might produce evidence for the existence of superpartner particles.[1] However, as of 2018, no such evidence has been found.

See also[edit]

References[edit]

  1. ^ a b c d Langacker, Paul (November 22, 2010). Sprouse, Gene D. (ed.). "Meet a superpartner at the LHC". Physics. 3 (98). New York: American Physical Society: 98. Bibcode:2010PhyOJ...3...98L. doi:10.1103/Physics.3.98. ISSN 1943-2879. OCLC 233971234.
  2. ^ Overbye, Dennis (May 15, 2007). "A Giant Takes On Physics' Biggest Questions". The New York Times. p. F1. ISSN 0362-4331. OCLC 1645522. Retrieved 21 February 2011.
  3. ^ a b Alexander I. Studenikin (ed.), Particle Physics in Laboratory, Space and Universe, World Scientific, 2005, p. 327.
  4. ^ Quigg, Chris (January 17, 2008). "Sidebar: Solving the Higgs Puzzle". Scientific American. Nature Publishing Group. ISSN 0036-8733. OCLC 1775222. Archived from the original on 2011-03-19. Retrieved 21 February 2011.