Magruder, Benjamin RPark, So JungCollanton, Ryan PBates, Frank SDorfman, Kevin D2022-04-062022-04-062022-04-06https://hdl.handle.net/11299/226885All input and output files from PSCF used to generate the data in the paper are included in this dataset, as well as the code used to process the data and generate the figures. Users should be able to replicate all results of our calculations using the PSCF software and the inputs/scripts in this dataset.We have used self-consistent field theory to predict a phase field in a blend of micelle-forming AB and B'C diblock polymers with different lengths and incompatible core blocks. The resulting paper was published in Macromolecules (doi.org/10.1021/acs.macromol.2c00346). The data were generated using the Fortran version of the open-source software PSCF (https://pscf.cems.umn.edu/). All input and output files from PSCF used to generate the data in the paper are included in this dataset, as well as the code used to process the data and generate the figures.CC0 1.0 Universalhttp://creativecommons.org/publicdomain/zero/1.0/Self-Consistent Field TheoryFrank-Kasper PhasesBlock Copolymer Self AssemblyLaves PhasesMicelle PackingPhase FieldSoft MatterPolymersData supporting Laves Phase Field in a Diblock Copolymer AlloyDatasethttps://doi.org/10.13020/xk2b-fs39