Splitting principle

Template:Short description In mathematics, the splitting principle is a technique used to reduce questions about vector bundles to the case of line bundles. In the theory of vector bundles, one often wishes to simplify computations, for example of Chern classes. Often computations are well understood for line bundles and for direct sums of line bundles. Then the splitting principle can be quite useful.

Statement

One version of the splitting principle is captured in the following theorem. This theorem holds for complex vector bundles and cohomology with integer coefficients. It also holds for real vector bundles and cohomology with ${\displaystyle {\mathbb{\mathbb{Z}}}_2}$ coefficients.

Template:Math theorem

In the complex case, the line bundles ${\displaystyle L_i}$ or their first characteristic classes are called Chern roots.

Another version of the splitting principle concerns real vector bundles and their complexifications:^[1]

Template:Math theorem

Consequences

The fact that ${\displaystyle p^{*}:H^{*}(X)\to H^{*}(Y)}$ is injective means that any equation which holds in ${\displaystyle H^{*}(Y)}$ — for example, among various Chern classes — also holds in ${\displaystyle H^{*}(X)}$. Often these equations are easier to understand for direct sums of line bundles than for arbitrary vector bundles. So equations should be understood in ${\displaystyle Y}$ and then pushed forward to ${\displaystyle X}$.

Since vector bundles on ${\displaystyle X}$ are used to define the K-theory group ${\displaystyle K(X)}$, it is important to note that ${\displaystyle p^{*}:K(X)\to K(Y)}$ is also injective for the map ${\displaystyle p}$ in the first theorem above.^[2]

Under the splitting principle, characteristic classes for complex vector bundles correspond to symmetric polynomials in the first Chern classes of complex line bundles; these are the Chern classes.

See also

• Grothendieck splitting principle for holomorphic vector bundles on the complex projective line

References

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• Raoul Bott and Loring Tu. Differential Forms in Algebraic Topology, section 21.