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词条 Supersymmetry algebra
释义

  1. Structure of a supersymmetry algebra

  2. See also

  3. References

In theoretical physics, a supersymmetry algebra (or SUSY algebra) is a mathematical formalism for describing the relation between bosons and fermions. The supersymmetry algebra contains not only the Poincaré algebra and a compact subalgebra of internal symmetries, but also contains some fermionic supercharges, transforming as a sum of N real spinor representations of the Poincaré group. Such symmetries are allowed by the Haag–Łopuszański–Sohnius theorem. When N>1 the algebra is said to have extended supersymmetry. The supersymmetry algebra is a semidirect sum of a central extension of the super-Poincaré algebra by a compact Lie algebra B of internal symmetries.

Bosonic fields commute while fermionic fields anticommute. In order to have a transformation that relates the two kinds of fields, the introduction of a Z2-grading under which the even elements are bosonic and the odd elements are fermionic is required. Such an algebra is called a Lie superalgebra.

Just as one can have representations of a Lie algebra, one can also have representations of a Lie superalgebra, called supermultiplets. For each Lie algebra, there exists an associated Lie group which is connected and simply connected, unique up to isomorphism, and the representations of the algebra can be extended to create group representations. In the same way, representations of a Lie superalgebra can sometimes be extended into representations of a Lie supergroup.

Structure of a supersymmetry algebra

The general supersymmetry algebra for spacetime dimension d, and with the fermionic piece consisting of a sum of N irreducible real spinor representations, has a structure of the form

(P×Z).Q.(L×B)

where

  • P is a bosonic abelian vector normal subalgebra of dimension d, normally identified with translations of spacetime. It is a vector representation of L.
  • Z is a scalar bosonic algebra in the center whose elements are called central charges.
  • Q is an abelian fermionic spinor subquotient algebra, and is a sum of N real spinor representations of L. (When the signature of spacetime is divisible by 4 there are two different spinor representations of L, so there is some ambiguity about the structure of Q as a representation of L.) The elements of Q, or rather their inverse images in the supersymmetry algebra, are called supercharges. The subalgebra (P×Z).Q is sometimes also called the supersymmetry algebra and is nilpotent of length at most 2, with the Lie bracket of two supercharges lying in P×Z.
  • L is a bosonic subalgebra, isomorphic to the Lorentz algebra in d dimensions, of dimension d(d–1)/2
  • B is a scalar bosonic subalgebra, given by the Lie algebra of some compact group, called the group of internal symmetries. It commutes with P,Z, and L, but may act non-trivially on the supercharges Q.

The terms "bosonic" and "fermionic" refer to even and odd subspaces of the superalgebra.

The terms "scalar", "spinor", "vector", refer to the behavior of subalgebras under the action of the Lorentz algebra L.

The number N is the number of irreducible real spin representations. When the signature of spacetime is divisible by 4 this is ambiguous as in this case there are two different irreducible real spinor representations, and the number N is sometimes replaced by a pair of integers (N1, N2).

The supersymmetry algebra is sometimes regarded as a real super algebra, and sometimes as a complex algebra with a hermitian conjugation. These two views are essentially equivalent, as the real algebra can be constructed from the complex algebra by taking the skew-Hermitian elements, and the complex algebra can be constructed from the real one by taking tensor product with the complex numbers.

The bosonic part of the superalgebra is isomorphic to the product of the Poincaré algebra P.L with the algebra Z×B of internal symmetries.

When N>1 the algebra is said to have extended supersymmetry.

When Z is trivial, the subalgebra P.Q.L is the super-Poincaré algebra.

See also

  • adinkra symbols
  • Super-Poincaré algebra
  • Superconformal algebra
  • Supersymmetry algebras in 1 + 1 dimensions
  • N = 2 superconformal algebra

References

  • {{Citation | last1=Bagger | first1=Jonathan | last2=Wess | first2=Julius | title=Supersymmetry and supergravity | url=https://books.google.com/books?id=4QrQZ_Rjq4UC | publisher=Princeton University Press | edition=2nd | series=Princeton Series in Physics | isbn=0-691-02530-4 | mr=1152804 | year=1992}}
  • {{Citation | last1=Haag | first1=Rudolf | author1-link=Rudolf Haag | last2=Sohnius | first2=Martin | last3=Łopuszański | first3=Jan T. | title=All possible generators of supersymmetries of the S-matrix | doi=10.1016/0550-3213(75)90279-5 | mr=0411396 | year=1975 | journal=Nuclear Physics B | volume=88 | pages=257–274|bibcode = 1975NuPhB..88..257H }}

2 : Supersymmetry|Lie algebras

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