Polymeric tracers

What is claimed is: 1. A method of tracing fluid flow in a subterranean formation having more than two wells, the method comprising: providing a first polymeric tracer having a first polymeric core and a second polymeric tracer having a second polymeric core different than the first polymeric core; introducing the first polymeric tracer to a first injector well in the subterranean formation to flow the first polymeric tracer from the first injector well through the subterranean formation to a first producer well to assess presence of a subterranean flow pathway between the first injector well and the first producer well, wherein the first polymeric tracer comprises the first polymeric core surrounded by a protective polymeric layer, the first polymeric core comprising a first polymer formed from at least a first monomer; protecting the first polymeric core in reservoir conditions of the subterranean formation via the protective polymeric layer, for collection of the first polymeric tracer comprising the protective polymeric layer and the first polymeric core from the subterranean formation; collecting a first aqueous sample from the first producer well in the subterranean formation; and assessing presence of the first polymeric tracer in the first aqueous sample by removing water from the first aqueous sample to yield a first dehydrated sample, pyrolyzing the first dehydrated sample to yield a first gaseous sample, and assessing presence of a pyrolization product of the first polymer in the first gaseous sample, wherein presence of the pyrolization product of the first polymer in the first gaseous sample is indicative of presence of the first polymeric tracer, comprising the protective polymeric layer and the first polymeric core, in the first aqueous sample, and wherein the presence of the first polymeric tracer in the first aqueous sample is indicative of the presence of the subterranean flow pathway between the first injector well and the first producer well. 2. The method of claim 1 , wherein prior to the pyrolyzing, the first polymeric core is not compatible with gas chromatography, wherein the assessing the presence of the pyrolization product comprises determining that the pyrolization product comprises the first monomer or a substituent on the first monomer, and wherein the assessing the presence of the first polymeric tracer comprises determining that the first aqueous sample comprises the first polymeric tracer based on the pyrolization product comprising the first monomer or the substituent. 3. The method of claim 2 , comprising forming a diagrammatic representation of subterranean fluid flow in the subterranean formation, the diagrammatic representation comprising the first injector well, the first producer well, and an indicator of the subterranean flow pathway in response to the pyrolization product of the first polymer being present in the first gaseous sample. 4. The method of claim 1 , comprising: providing the second polymeric tracer to a second injector well to flow from the second injector well through the subterranean formation to the first producer well, wherein the second polymeric core comprises a second polymer formed from at least a second monomer differing in mass from the first monomer; and assessing presence of the second polymeric tracer in the first aqueous sample by assessing presence of a pyrolization product of the second polymer in the first gaseous sample, wherein the presence of the second polymeric tracer in the first aqueous sample is indicative of presence of a second subterranean flow pathway between the second injector well and the first producer well. 5. The method of claim 4 , wherein the presence of the subterranean flow pathway and the presence of the second subterranean flow pathway are indicative of fluid connectivity between the subterranean flow pathway and the second subterranean pathway, and wherein a length of time between the introducing of the first polymeric tracer and the collecting of the first aqueous sample is at least a month. 6. The method of claim 1 , comprising: collecting a second aqueous sample from a second producer well in the subterranean formation; and assessing presence of the first polymeric tracer in the second aqueous sample by removing water from the second aqueous sample to yield a second dehydrated sample, pyrolyzing the second dehydrated sample to yield a second gaseous sample, and assessing presence of the pyrolization product of the first polymer in the second gaseous sample, wherein the presence of the pyrolization product of the first polymer in the second gaseous sample is indicative of presence of the first polymeric tracer in the second aqueous sample, and wherein the presence of the first polymeric tracer in the second aqueous sample is indicative of presence of a second subterranean flow pathway between the first injector well and the second producer well. 7. The method of claim 1 , comprising: providing the second polymeric tracer to a second injector well, wherein the second polymeric core comprises a second polymer formed from at least a second monomer different than the first monomer; collecting a second aqueous sample from the first producer well, wherein the second aqueous sample differs from the first aqueous sample; and assessing presence of the second polymeric tracer in the second aqueous sample by removing water from the second aqueous sample to yield a second dehydrated sample, pyrolyzing the second dehydrated sample to yield a second gaseous sample, and assessing presence of a pyrolization product of the second polymer in the second gaseous sample, wherein the presence of the pyrolization product of the second polymer in the second gaseous sample is indicative of the presence of the second polymeric tracer in the second aqueous sample. 8. The method of claim 7 , wherein the presence of the second polymeric tracer in the second aqueous sample is indicative of the presence of a second subterranean flow pathway between the second injector well and the first producer well. 9. The method of claim 7 , wherein the pyrolization product of the second polymer comprises the second monomer or a substituent on the second monomer. 10. The method of claim 1 , wherein the first polymeric tracer comprises a polymeric nanoparticle comprising the first polymeric core and the protective polymeric layer, wherein the more than two wells comprise the first producer well and two injector wells comprising the first injector well and a second injector well, or wherein the more than two wells comprise the first injector well and two producer wells comprising the first producer well and a second producer well, or a combination thereof. 11. The method of claim 1 , wherein the protective polymeric layer comprises polymeric coating over the first polymeric core. 12. The method of claim 1 , wherein the first polymer comprises polystyrene, polyacrylate, polymethacrylate, or a vinyl polymer. 13. The method of claim 1 , wherein the removing of water from the first aqueous sample comprises heating the first aqueous sample at a first temperature greater than the boiling point of water in the first aqueous sample and less than a degradation temperature of the first polymer, wherein the pyrolyzing of the first dehydrated sample comprises heating the first dehydrated sample at a second temperature greater than the degradation temperature of the first polymer, and wherein the assessing of the presence of the pyrolization product of the first polymer in the first gaseous sample comprises providing the first gaseous sample to a gas chromatograph to yield an output comprising components of the first gaseo