Considerable difficulties exist in generating appreciable magnetic fields, localized on nanometer length scales for future experiments and technologies. Here we experimentally demonstrate selective reversal of a ferromagnetic nanowire by the stray field from a domain wall. The use of a domain wall as a persistent, mobile source of magnetic field is an alternative to localized Oersted fields and current induced switching, with possible use in future domain wall based data storage schemes and magnetic random access memory applications. V C 2012 American Institute of Physics.Many emerging nano-scale experiments and technologies require appreciable magnetic fields, localized on nanometer length scales, including spintronic devices, magnetic random access memories (MRAM), racetrack memories, and quantum information processing devices. 1-4 Large permanent-or electro-magnets can supply considerable fields but lack spatial confinement. Using the Oersted field from a patterned current-carrying strip offers localized fields, however is incompatible with future device scaling. To this aim, recent research has demonstrated the use of patterned nanoscale ferromagnetic elements as a source of tailorable, highly localized magnetic field. 5 The stray field from a domain wall (DW), H DW , in a planar ferromagnetic nanowire has also been identified as a source of localized magnetic field. 6 These DWs have the added advantage that they may be propagated (e.g., under the application of a magnetic field) within the nanowires and so may be considered as a highly mobile source of localized field. This mobile field source underpins data writing in proposed DW-based storage devices, 3 may manipulate magnetic beads for biological sensing, 7 and has seen theoretical interest in atom trapping. 8 Furthermore, DWs may be moved using electrical currents 9,10 allowing an all electrical control of magnetic data writing and manipulation. In this letter we experimentally demonstrate the use of a DW as a mobile source of magnetic field, localized on the nano-meter scale. We show using such a source of field, a magnetic element may be directly and selectively reverseda mechanism potentially highly useful for data writing in magnetic DW data storage and MRAM applications.In ferromagnetic nanowires (NWs) patterned from magnetically soft material [e.g., permalloy (Py)], reversal of the magnetization is mediated by the nucleation of a DW and occurs when the field exceeds a critical nucleation field threshold (NFT). The magnitude of this field depends on the angle the field makes with the nanowire axes. The nucleation mechanism is well described by the thermally activated reversal of a small magnetic volume, on the order of the characteristic volume of the DW ($10 À22 m 3 in our devices). 11,12 This reversal typically occurs at the end of the nanowire and is highly sensitive to the relative angle of the applied field as well as the temperature and experimental wait time for reversal. Once nucleated, it is possible to propagate a DW under a substantially ...
