Brown–Peterson cohomology
Encyclopedia
In mathematics, Brown–Peterson cohomology is a generalized cohomology theory introduced by
, depending on a choice of prime p. It is described in detail by .
Its representing spectrum is denoted by BP.
MU localized at a prime p. In fact MU(p) is a wedge product of suspensions of BP.
For each prime p, Quillen showed there is a unique idempotent map of ring spectra ε from MUQ(p) to itself, with the property that ε([CPn]) is [CPn] if n+1 is a power of p, and 0 otherwise. The spectrum BP is the image of this idempotent ε.
BP*(BP) is isomorphic to the polynomial ring π*(BP)[t1, t2, ...] over π*(BP) with generators ti in BP2(pi−1)(BP) of degrees 2(pi−1).
The cohomology of the Hopf algebroid (π*(BP), BP*(BP)) is the initial term of the Adams–Novikov spectral sequence for calculating p-local homotopy groups of spheres
.
BP is the universal example of a complex oriented cohomology theory whose associated formal group law is p-typical.
, depending on a choice of prime p. It is described in detail by .
Its representing spectrum is denoted by BP.
Complex cobordism and Quillen's idempotent
Brown–Peterson cohomology BP is a summand of MU(p), which is complex cobordismComplex cobordism
In mathematics, complex cobordism is a generalized cohomology theory related to cobordism of manifolds. Its spectrum is denoted by MU. It is an exceptionally powerful cohomology theory, but can be quite hard to compute, so often instead of using it directly one uses some slightly weaker theories...
MU localized at a prime p. In fact MU(p) is a wedge product of suspensions of BP.
For each prime p, Quillen showed there is a unique idempotent map of ring spectra ε from MUQ(p) to itself, with the property that ε([CPn]) is [CPn] if n+1 is a power of p, and 0 otherwise. The spectrum BP is the image of this idempotent ε.
Structure of BP
The coefficient ring π*(BP) is a polynomial algebra over Z(p) on generators vn of dimension 2(pn − 1) for n ≥ 1.BP*(BP) is isomorphic to the polynomial ring π*(BP)[t1, t2, ...] over π*(BP) with generators ti in BP2(pi−1)(BP) of degrees 2(pi−1).
The cohomology of the Hopf algebroid (π*(BP), BP*(BP)) is the initial term of the Adams–Novikov spectral sequence for calculating p-local homotopy groups of spheres
Homotopy groups of spheres
In the mathematical field of algebraic topology, the homotopy groups of spheres describe how spheres of various dimensions can wrap around each other. They are examples of topological invariants, which reflect, in algebraic terms, the structure of spheres viewed as topological spaces, forgetting...
.
BP is the universal example of a complex oriented cohomology theory whose associated formal group law is p-typical.