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Imagine that a graph has two relatively densely connected components that are only connected to each other by relatively few edges. How can I identify the components? I don't know the proper terminology, but the intuition is that a relatively densely connected subgraph is hanging onto another subgraph by a few threads. I want to identify these clumps that are only loosely connected to the rest of the graph.

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If your graph represents a real-world system, this task is called community detection. You'll find many articles about that, starting with Fortunato's review (2010). He describes, amongst others, the min-cut based methods mentioned in the earlier answers.

There're also many posts on SO, such as :

People in Cross Validated also talk about community detection :

Finally, there's a proposal in Area 51 for a new Network Science site, which would be more directly related to this problem.

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You probably want sparsest cut instead of min cut -- unless you can identify several nodes in a component, min cuts have a tendency to be very unbalanced when the degrees are small. One of the common approaches to sparsest cut is to compute an eigenvector of the graph's Laplacian and threshold it.

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The answer might be somewhat general, but you could could try to model your problem as a flow problem and generate a minimum cut; see here. The edges could be bidirectional with capacity 1, and a resulting cut would maybe yield the desired partition?

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