ISSM 2019 will be an important and reliable platform for inspiring international and interdisciplinary exchange at the forefront of Superconductivity and Magnetism . The conference is soliciting state-of-the-art research papers in the following areas of interest:Accelerator magnetsAncillary materials for superconducting applicationsApplied superconductivityBiomedical diagnostics and imagingCables (HTS, LTS), CICC, and current leadsCritical current and flux pinningCritical temperature and critical fieldsCryogenics for superconducting devices and system integrationElectromagnetic compatibilityEnergy storageFunctional magnetic materials and non-recording applicationsFusion magnetsGMR of multilayers, magnetic contacts and constrictionsHigh-temperature superconductivityHTS magnetsInsulation and dielectricsIntermetallic and other hard magnetsLarge superconducting and related systemsLevitation, transportation, and propulsionMagnet design and analysis techniquesMagnet stability, magnetization effects, AC losses and protectionMagnetic fluids and separationMagnetic microscopy and imagingMagnetic semiconductorsMagnetic thin films and nanostructuresMagnetic tunneling junctionsMagnetization and time-dependent lossesMagneto-caloric materials and devicesMagnetodynamics and ferromagnetic resonanceMagneto-elastic materials and devicesMagnetoimpedance and high frequency materialsMagneto-optic materials and devicesMicromagnetics and multiscale modelingMolecular and novel magnetic materialsMultiferroic materialsNanostructured and composite hard magnetic materialsNovel biomedical therapies and nanomedicineOrganic and carbon-based spin transportPermanent magnet materialsPnictides and related materialsProperties important for applicationsRare earth transition metal boridesRecording physics, modeling, theory and testingShielding, levitation and propulsionSoft magnetic materialsSpin transfer torqueSuperconducting electrical power devicesSuperconducting electronicsSuperconducting magnetsSuperconducting phase transitionSuperconductivity and zero electrical resistance