摘要:
An apparatus comprises a slider having an air bearing surface, a first waveguide for directing electromagnetic radiation to a focal point adjacent to the air bearing surface, a storage medium position adjacent to the air bearing surface, a detector for detecting electromagnetic radiation reflected from the storage medium, and a structure positioned adjacent to the focal point for collecting the reflected electromagnetic radiation and for transmitted the reflected electromagnetic radiation toward the detector.
摘要:
A method of performing writable optical recording of a medium to form multilevel oriented nano-structures therein, comprises steps of providing a disc-shaped, writable recording medium having a planar surface; and encoding data/information in the medium by forming a plurality of multilevel nano-structured pits in the surface by scanning with a focused spot of optical energy to form at least one data track therein, including scanning the optical spot in a cross-track direction while rotating the disc about a central axis.
摘要:
A thin film structure comprises a first layer including a first plurality of grains of magnetic material having a first intergranular exchange coupling, and a second layer positioned adjacent to the first layer and including a second plurality of grains of magnetic material having a second intergranular exchange coupling, wherein the second intergranular exchange coupling is larger than the first intergranular exchange coupling and wherein the Curie temperature of the first layer is greater than the Curie temperature of the second layer. A data storage system including the thin film structure is also provided.
摘要:
A storage device includes a storage medium, a controller and a read/write head. The storage medium includes a substrate with a plurality of nano-structures arranged in an ordered pattern on a surface of the substrate. The controller is coupled to the storage medium. The controller has a read structure that extends over the substrate and a positioner adapted to adjust a position of the read structure relative to the substrate. The read/write head is mounted on the read structure and positioned over the substrate during operation. The read/write head is adapted to read and to write information to and from the plurality of nano-structures.
摘要:
A method of fabricating a magnetic storage medium comprises: forming an underlayer on a heat sink layer; co-sputtering a magnetic material and a thermally insulating nonmagnetic material to form a recording layer on the underlayer, wherein the recording layer includes grains of the magnetic material in a matrix of the thermally insulating nonmagnetic material; and heating the recording layer to align an easy axis of magnetization of the magnetic material in a direction perpendicular to the underlayer. A magnetic storage medium fabricated using the method is also provided.
摘要:
A storage medium comprising a multilayer system with at least one magnetic layer, of magneto-optical storage material, and at least one reflector layer, with an index of refraction n
摘要:
A magnetic recording layer having polycrystalline chemical ordered (COX)3Pt or (COX)3PtY alloys. The additive X comprises Sc, Ti, V, Cr, Mn, Ni, Cu, Zn, Ga, Ge, Nb, Mo, Ru, Rh, Pd, Ag, Cd, In, Sn, Hf, Ta, W, Re, Os, B, or C, or any combination thereof. The additive Y comprises B, MgO, Al2O3, SiO2, P, CaO, CoO, B2O3, ZnO, NbO, Mo2O3, Co2O3, C, Cr, P, TiO2, Cr2O3, MnO, ZrO2, or BaO. The ratio of (CoX) to Pt is 2.33 to 4.00, plus or minus 5%. The additive Y may range from approximately 0 to 20% of the entire composition. The magnetic layer may be a constituent layer in a hard disc drive magnetic recording medium.
摘要翻译:具有多晶化学有序(COX)3 Pt或(COX)3 Pt 3合金的磁记录层。 添加剂X包括Sc,Ti,V,Cr,Mn,Ni,Cu,Zn,Ga,Ge,Nb,Mo,Ru,Rh,Pd,Ag,Cd,In,Sn,Hf,Ta, Os,B或C,或其任何组合。 添加剂Y包括B,MgO,Al 2 O 3,SiO 2,P,CaO,CoO,B 2, 3 O 3,ZnO,NbO,Mo 2 O 3,CO 2,N 2 O 3, / SUB,C,Cr,P,TiO 2,Cr 2 O 3,MnO,ZrO 2, ,或BaO。 (CoX)与Pt的比例为2.33〜4.00,加或减5%。 添加剂Y可以在整个组合物的约0至20%的范围内。 磁性层可以是硬盘驱动器磁记录介质中的构成层。
摘要:
A bit patterned magnetic recording medium for use in HAMR, which is optimized for optical coupling efficiencies and improved magnetic read-back coupling. The medium comprises bit-patterned magnetic recording elements, each corresponding to a magnetic data bit, and each comprising a cluster of discrete and separated magnetic grains. The desired packing fraction may be obtained by defining the number of grains within a bit, while bit-patterning provides efficient optical transmission. The grains have an effective packing fraction that enhances magnetic read-back signals, and the bits are distributed in a pattern having a packing fraction that enhances the optical coupling efficiency. The bits and/or the grains may be substantially thermally and optically isolated.
摘要:
A method and system for magnetic recording using self-organized magnetic nanoparticles is disclosed. The method may include depositing surfactant coated nanoparticles on a substrate, wherein the surfactant coated nanoparticles represent first bits of recorded information. The surfactant coating is then removed from selected of the surfactant coated nanoparticles. The selected nanoparticles with their surfactant coating removed may then be designated to represent second bits of recorded information. The surfactant coated nanoparticles have a first saturation magnetic moment and the selected nanoparticles with the surfactant coating removed have a second saturation magnetic moment. Therefore, by selectively removing the surfactant coating from certain nanoparticles, a write operation for recording the first and second bits of information may be performed. A read operation may be carried out by detecting the different magnetic moments of the surfactant coated nanoparticles and the non-surfactant coated nanoparticles.
摘要:
A patterned magnetic layer is formed by bombardment of a masked high Mrt magnetic layer with a combination of both heavy ion species and light ion species. The method can be implemented as sequential process steps or in a single process step with the proper heavy/light ion species mixture. Advantageously, the combined heavy/light ion species bombardment method results in a patterned magnetic layer having high topographical uniformity across its surface.