Super-space
A vector space 
over a field 
endowed with a 
-grading 
. The elements of the spaces 
and 
are said to be even and odd, respectively; for 
, the parity 
is defined to be 
. Each super-space 
has associated to it another super-space 
such that 
. The pair 
, where 
, 
, is called the dimension of the super-space 
. The field 
is usually considered as a super-space of dimension 
.
For two super-spaces 
and 
, the structure of a super-space on the spaces 
, 
, 
, etc., is defined naturally. In particular, a linear mapping 
is even if 
, and odd if 
. A homogeneous bilinear form 
is said to be symmetric if
 |
and skew-symmetric if
 |
All these concepts apply equally to 
-graded free modules 
over an arbitrary commutative superalgebra 
. The basis in 
is usually selected so that its first vectors are even and its last ones odd. Any endomorphism 
of the module 
is denoted in this basis by a block matrix
 |
where 
, 
, such that if 
is even, then 
and 
consist of even elements and 
and 
consist of odd elements, whereas if 
is odd, then 
and 
consist of odd elements and 
and 
consist of even elements (in the former case the matrix 
is even, in the latter, odd).
References
| [1] | F.A. Berezin, "Introduction to superanalysis" , Reidel (1987) (Translated from Russian) |
| [2] | D.A. Leites (ed.) , Seminar on super-manifolds , Kluwer (1990) |
Comments
References
| [a1] | F.A. Berezin, M.A. Shubin, "The Schrödinger equation" , Kluwer (1991) (Translated from Russian) (Supplement 3: D.A. Leites, Quantization and supermanifolds) |
Super-space. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Super-space&oldid=11499