There is currently tremendous interest in unconventional superconductors where p-wave, d-wave or f-wave angular momentum states exist. The existence of p or f-wave odd symmetry states would imply the existence of a triplet (even symmetry) state where the presence of ferromagnetism would not destroy the Cooper pair. We have produced unconventional states using non-collinear magnetism in close proximity to a conventional superconductor using artificial nanostructures. Using PNR we have measured spin triplet signals (RB1120249), however due to equipment faults it is difficult to extract quantitative data from our measurements. Thus we propose to repeat and extend our measurements to gain better statistics and be able to quantitatively compare the various states of our system.