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Homemonodromy group

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# monodromy group

Consider an ordinary linear differential equation

$\sum_{{k=0}}^{n}c_{k}(x){d^{n}y\over dx^{n}}=0$ |

in which the coefficients are polynomials. If $c_{n}$ is not constant, then it is possible that the solutions of this equation will have branch points at the zeros of $c_{n}$. (To see if this actually happens, we need to examine the indicial equation.)

By the persistence of differential equations, the analytic continuation of a solution of this equation will be another solution. Pick a neighborhood which does not contain any zeros of $c_{n}$. Since the differential equation is of order $n$, there will be $n$ independent solutions $y=f_{1}(x),\ldots,y=f_{n}(x)$. (For example, one may exhibit these solutions as power series about some point in the neighborhood.)

Upon analytic continuation back to the original neighborhood via a chain of neghborhoods, suppose that the solution $y=f_{i}(x)$ is taken to a solution $y={g}_{i}(x)$. Because the solutions are linearly independent, there will exist a matrix $\{m_{{ij}}\}_{{i,j=1}}^{n}$ such that

${g}_{i}=\sum_{{j=1}}^{n}m_{{ij}}f_{j}.$ |

Now consider the totality of all such matrices corresponding to
all possible ways of making analytic continuations along chains
which begin and end wit the original neighborhood. They form a
group known as the *monodromy group* of the differential
equation. The reason this set is a group is some basic facts
about analytic continuation. First, there is the trivial analytic
continuation which simply takes a function element to itself. This
will correspond to the identity matrix. Second, we can reverse a
process of analytic continuation. This will correspond to the inverse
matrix. Third, we can follow continuation along one chain of
neighborhoods by continuation along another chain. This will
correspond to multiplying the matrices corresponding to the two chains.

## Mathematics Subject Classification

30A99*no label found*

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