Multipole elastomeric magnet with magnetic-field shunt

What is claimed is: 1. A multipole magnet, comprising: an elastomeric polymer; magnetically anisotropic rare-earth magnetic particles in the elastomeric polymer configured to form multiple permanent magnet elements; and a magnetic-field shunt. 2. The multipole magnet defined in claim 1 wherein the magnetic-field shunt comprises magnetic particles in an elastomer. 3. The multipole magnet defined in claim 1 wherein the magnetic particles of the magnetic-field shunt comprise ferrite particles. 4. The multipole magnet defined in claim 1 wherein the magnetic-field shunt comprises multiple magnetic members in a binder. 5. The multipole magnet defined in claim 4 wherein the binder comprises an elastomeric material. 6. The multipole magnet defined in claim 4 wherein the elastomeric polymer is silicone and wherein the binder is silicone. 7. The multipole magnet defined in claim 1 wherein the elastomeric polymer is configured to form a layer in an item selected from the group consisting of: a wrist band and an electronic device cover. 8. The multipole magnet defined in claim 1 wherein the elastomeric polymer is configured to form a closure in an item with a hinge. 9. The multipole magnet defined in claim 1 wherein the elastomeric polymer includes conductive particles that form signal paths. 10. A wrist band, comprising: a first elastomeric layer containing first magnetic particles configured to form a multipole permanent magnet; and a second elastomeric layer containing second magnetic particles configured to form a magnetic-field shunt layer for the multipole permanent magnet. 11. The wrist band defined in claim 10 wherein the first magnetic particles are rare-earth particles. 12. The wrist band defined in claim 11 wherein the second magnetic particles are ferrite particles. 13. The wrist band defined in claim 10 wherein the first elastomeric layer comprises silicone, the second elastomeric layer comprises silicone, and the first magnetic particles are magnetically anisotropic rare-earth particles. 14. The wrist band defined in claim 10 further comprising conductive particles in the first elastomeric layer that are configured to form signal paths through the first elastomeric layer. 15. The wrist band defined in claim 10 further comprising a polymer separator layer between the first and second elastomeric layers. 16. The wrist band defined in claim 10 wherein the first and second elastomeric layers comprises integral sublayers in a common elastomeric wrist band member. 17. Apparatus, comprising: a compression-molded multipole rare-earth magnet having magnetically anisotropic rare-earth magnetic particles in an elastomeric polymer; and a magnetic-field shunt that shunts magnetic fields from the compression-molded multipole rare-earth magnet. 18. The apparatus defined in claim 17 wherein the magnetic-field shunt comprises magnetic members in a polymer binder and wherein the magnetic members are separated by gaps that allow the magnetic-field shunt to flex. 19. The apparatus defined in claim 17 wherein the magnetic-field shunt comprises magnetic particles in a polymer binder. 20. The apparatus defined in claim 17 further comprising conductive particles in a polymer that form electrical connector contacts.