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Lazard's universal ring

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In mathematics, Lazard's universal ring is a ring introduced by Michel Lazard in Lazard (1955) over which the universal commutative one-dimensional formal group law is defined.

There is a universal commutative one-dimensional formal group law over a universal commutative ring defined as follows. We let

F ( x , y ) {\displaystyle F(x,y)}

be

x + y + i , j c i , j x i y j {\displaystyle x+y+\sum _{i,j}c_{i,j}x^{i}y^{j}}

for indeterminates c i , j {\displaystyle c_{i,j}} , and we define the universal ring R to be the commutative ring generated by the elements c i , j {\displaystyle c_{i,j}} , with the relations that are forced by the associativity and commutativity laws for formal group laws. More or less by definition, the ring R has the following universal property:

For every commutative ring S, one-dimensional formal group laws over S correspond to ring homomorphisms from R to S.

The commutative ring R constructed above is known as Lazard's universal ring. At first sight it seems to be incredibly complicated: the relations between its generators are very messy. However Lazard proved that it has a very simple structure: it is just a polynomial ring (over the integers) on generators of degree 1, 2, 3, ..., where c i , j {\displaystyle c_{i,j}} has degree ( i + j 1 ) {\displaystyle (i+j-1)} . Daniel Quillen (1969) proved that the coefficient ring of complex cobordism is naturally isomorphic as a graded ring to Lazard's universal ring. Hence, topologists commonly regrade the Lazard ring so that c i , j {\displaystyle c_{i,j}} has degree 2 ( i + j 1 ) {\displaystyle 2(i+j-1)} , because the coefficient ring of complex cobordism is evenly graded.

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