H-space
A topological space with multiplication having a two-sided homotopy identity. More precisely, a pointed topological space 
for which a continuous mapping 
has been given is called an 
-space if 
and if the mappings 
, 
and 
are homotopic 
to the identity mapping. The marked point 
is called the homotopy identity of the 
-space 
. Sometimes the term "H-space" is used in a narrower sense: It is required that 
be homotopy associative, i.e. that the mappings
 |
are homotopic 
. Sometimes one requires also the existence of a homotopy-inverse. This means that a mapping 
must be given for which the mappings
 |
are homotopic to the constant mapping 
. E.g., for any pointed topological space 
the loop space 
is a homotopy-associative 
-space with homotopy-inverse elements, while 
is even a commutative 
-space, i.e. a space for which the mappings 
,
 |
are homotopic. The cohomology groups of an 
-space form a Hopf algebra.
References
| [1] | J.M. Boardman, R.M. Vogt, "Homotopy invariant algebraic structures on topological spaces" , Springer (1973) |
Comments
Much of the importance of 
-spaces (with the axioms of homotopy associativity and of homotopy inverse) comes from the fact that a group structure is induced on the set of homotopy classes of mappings from a space into an 
-space. See [a1].
References
| [a1] | E.H. Spanier, "Algebraic topology" , McGraw-Hill (1966) pp. Chapt. I, Sect. 6 |
H-space. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=H-space&oldid=47155