Stacked magnetic cores having small footprints

1 . A stacked magnetic core for an electrical component, the stacked magnetic core comprising: a first magnetic film; a first adhesive film disposed on an upper surface of the first magnetic film; and a second magnetic film disposed on the first adhesive film, the first adhesive film adhering the first magnetic film to the second magnetic film, the first magnetic film being electrically insulated from the second magnetic film by the first adhesive film, a footprint of the stacked magnetic core, measured in a first plane having the upper surface of the first magnetic film, being 15 square millimeters (mm 2 ) or less, the first adhesive film being a magnetic paste, each of the first magnetic film and the second magnetic film being a cobalt-nickel-iron (CoNiFe) film, and a thickness of the first adhesive film, measured in a first direction perpendicular to the first plane, being in a range of from 0.05 micrometers (μm) to 1 μm. 2 . The stacked magnetic core according to claim 1 , the footprint of the stacked magnetic core being 5 mm 2 or less. 3 . The stacked magnetic core according to claim 1 , the footprint of the stacked magnetic core being 1 mm 2 or less. 4 . The stacked magnetic core according to claim 1 , the stacked magnetic core having an inductance density of at least 8 nanohenries per square millimeter (nH/mm 2 ). 5 . The stacked magnetic core according to claim 1 , the stacked magnetic core having a coercivity of no more than 1 Oersted (Oe). 6 . The stacked magnetic core according to claim 1 , comprising a plurality of magnetic films and a plurality of adhesive films stacked in an alternating fashion such that each magnetic film is electrically isolated from each other magnetic film, each adhesive film of the plurality of adhesive films being a magnetic paste, the plurality of adhesive films comprising the first adhesive film and a second adhesive film disposed on an upper surface of the second magnetic film, the plurality of magnetic films comprising the first magnetic film, the second magnetic film, and a third magnetic film disposed on the second adhesive film, and the third magnetic film being a CoNiFe film. 7 . (canceled) 8 . The stacked magnetic core according to claim 6 , a thickness of each adhesive film of the plurality of adhesive films, measured in the first direction, being in a range of from 0.05 micrometers (μm) to 1 μm. 9 . The stacked magnetic core according to claim 8 , the thickness of each adhesive film, measured in the first direction, being in a range of from 0.1 μm to 0.5 μm. 10 . The stacked magnetic core according to claim 6 , a thickness of each magnetic film of the plurality of magnetic films, measured in a first direction perpendicular to the first plane, being in a range of from 0.1 μm to 5 μm. 11 . The stacked magnetic core according to claim 10 , the thickness of each magnetic film being in a range of from 0.5 μm to 2 μm. 12 - 13 . (canceled) 14 . An electrical component, comprising: the stacked magnetic core according to claim 1 ; and a coil disposed around the stacked magnetic core, the electrical component being an inductor or a transformer. 15 . The electrical component according to claim 14 , further comprising a magnetic paste disposed around the coil such that a magnetic flux path of the electrical component is closed. 16 . An electrical component, comprising: the stacked magnetic core according to claim 6 ; and a coil disposed around the stacked magnetic core, the electrical component being an inductor or a transformer. 17 . The electrical component according to claim 16 , the electrical component having a closed magnetic flux path. 18 . The electrical component according to claim 16 , further comprising a magnetic paste disposed around the coil such that a magnetic flux path of the electrical component is closed. 19 . A stacked magnetic core for an electrical component, the stacked magnetic core comprising: a plurality of magnetic films and a plurality of adhesive films stacked in an alternating fashion such that each magnetic film is electrically isolated from each other magnetic film, the plurality of magnetic films comprising a first magnetic film, a second magnetic film, and a third magnetic film, the plurality of adhesive films comprising a first adhesive film disposed on an upper surface of the first magnetic film and a second adhesive film disposed on an upper surface of the second magnetic film, the second magnetic film being disposed on the first adhesive film, the third magnetic film being disposed on the second adhesive film, the first adhesive film adhering the first magnetic film to the second magnetic film, the second adhesive film adhering the second magnetic film to the third magnetic film, a footprint of the stacked magnetic core, measured in a first plane having the upper surface of the first magnetic film, being 1 square millimeters (mm 2 ) or less, the stacked magnetic core having an inductance density of at least 8 nanohenries per square millimeter (nH/mm 2 ), the stacked magnetic core having a coercivity of no more than 1 Oersted (Oe), each magnetic film of the plurality of magnetic films being a cobalt-nickel-iron (CoNiFe) film, a thickness of each adhesive film of the plurality of adhesive films, measured in a first direction perpendicular to the first plane, being in a range of from 0.1 micrometers (μm) to 1 μm, a thickness of each magnetic film of the plurality of magnetic films, measured in the first direction, being in a range of from 0.5 μm to 2 μm, and each adhesive film of the plurality of adhesive films being a magnetic paste. 20 . An electrical component, comprising: the stacked magnetic core according to claim 19 ; a coil disposed around the stacked magnetic core; and a magnetic paste disposed around the coil such that a flux path of the electrical component is closed, the electrical component being an inductor or a transformer.