Difference between revisions of "Primitive element in a co-algebra"
(Importing text file) |
Ulf Rehmann (talk | contribs) m (tex encoded by computer) |
||
Line 1: | Line 1: | ||
− | + | <!-- | |
+ | p1102201.png | ||
+ | $#A+1 = 26 n = 0 | ||
+ | $#C+1 = 26 : ~/encyclopedia/old_files/data/P110/P.1100220 Primitive element in a co\AAhalgebra | ||
+ | Automatically converted into TeX, above some diagnostics. | ||
+ | Please remove this comment and the {{TEX|auto}} line below, | ||
+ | if TeX found to be correct. | ||
+ | --> | ||
− | + | {{TEX|auto}} | |
+ | {{TEX|done}} | ||
− | ( | + | Let $ ( C, \mu, \epsilon ) $ |
+ | be a [[Co-algebra|co-algebra]] over $ k $. | ||
+ | An element $ x \in C $ | ||
+ | is called group like if $ \mu ( x ) = g \otimes g $. | ||
+ | An element $ x \in C $ | ||
+ | is called primitive over the group-like element $ g $ | ||
+ | if $ \mu ( x ) = g \otimes x + x \otimes g $, | ||
+ | [[#References|[a2]]], p. 199. Let $ ( B,m,e, \mu, \epsilon ) $ | ||
+ | be a bi-algebra (see [[Hopf algebra|Hopf algebra]]) and let $ P ( B ) $ | ||
+ | be the set of primitive elements over the group-like element $ 1 \in B $ | ||
+ | of $ B $, | ||
+ | considered as a co-algebra. Then $ P ( B ) $ | ||
+ | becomes a [[Lie algebra|Lie algebra]] under the commutator bracket | ||
− | + | $$ | |
+ | [ x,y ] = xy = yx, | ||
+ | $$ | ||
− | In particular, | + | (using the multiplication of $ B $). |
+ | This is the Lie algebra of primitive elements. | ||
+ | |||
+ | For $ k $ | ||
+ | a [[Field|field]] of characteristic zero, the functors $ L \mapsto U ( L ) $, | ||
+ | the [[Universal enveloping algebra|universal enveloping algebra]] of the Lie algebra $ L $, | ||
+ | and $ H \mapsto P ( H ) $, | ||
+ | where $ H $ | ||
+ | is a Hopf algebra (or bi-algebra) over $ k $, | ||
+ | establish an equivalence between the category of Lie algebras and the category of co-commutative irreducible bi-algebras (such bi-algebras are automatically Hopf algebras). | ||
+ | |||
+ | In particular, $ P ( U ( L ) ) \simeq L $, | ||
+ | $ U ( P ( H ) ) \simeq H $ | ||
+ | for such a bi-algebra (Hopf algebra) [[#References|[a2]]], [[#References|[a1]]]; for the graded version of this correspondence, see [[Hopf algebra|Hopf algebra]] and the references quoted there. See also [[Lie polynomial|Lie polynomial]] for the concrete case that $ L $ | ||
+ | is a free Lie algebra (cf. [[Lie algebra, free|Lie algebra, free]]) on a set $ X $ | ||
+ | and $ U ( L ) = { \mathop{\rm Ass} } ( X ) $ | ||
+ | is the free associative algebra over $ X $. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> E. Abe, "Hopf algebras" , Cambridge Univ. Press (1977)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> M.E. Sweedler, "Hopf algebras" , Benjamin (1963)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> E. Abe, "Hopf algebras" , Cambridge Univ. Press (1977)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> M.E. Sweedler, "Hopf algebras" , Benjamin (1963)</TD></TR></table> |
Revision as of 08:07, 6 June 2020
Let $ ( C, \mu, \epsilon ) $
be a co-algebra over $ k $.
An element $ x \in C $
is called group like if $ \mu ( x ) = g \otimes g $.
An element $ x \in C $
is called primitive over the group-like element $ g $
if $ \mu ( x ) = g \otimes x + x \otimes g $,
[a2], p. 199. Let $ ( B,m,e, \mu, \epsilon ) $
be a bi-algebra (see Hopf algebra) and let $ P ( B ) $
be the set of primitive elements over the group-like element $ 1 \in B $
of $ B $,
considered as a co-algebra. Then $ P ( B ) $
becomes a Lie algebra under the commutator bracket
$$ [ x,y ] = xy = yx, $$
(using the multiplication of $ B $). This is the Lie algebra of primitive elements.
For $ k $ a field of characteristic zero, the functors $ L \mapsto U ( L ) $, the universal enveloping algebra of the Lie algebra $ L $, and $ H \mapsto P ( H ) $, where $ H $ is a Hopf algebra (or bi-algebra) over $ k $, establish an equivalence between the category of Lie algebras and the category of co-commutative irreducible bi-algebras (such bi-algebras are automatically Hopf algebras).
In particular, $ P ( U ( L ) ) \simeq L $, $ U ( P ( H ) ) \simeq H $ for such a bi-algebra (Hopf algebra) [a2], [a1]; for the graded version of this correspondence, see Hopf algebra and the references quoted there. See also Lie polynomial for the concrete case that $ L $ is a free Lie algebra (cf. Lie algebra, free) on a set $ X $ and $ U ( L ) = { \mathop{\rm Ass} } ( X ) $ is the free associative algebra over $ X $.
References
[a1] | E. Abe, "Hopf algebras" , Cambridge Univ. Press (1977) |
[a2] | M.E. Sweedler, "Hopf algebras" , Benjamin (1963) |
Primitive element in a co-algebra. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Primitive_element_in_a_co-algebra&oldid=16750