Multilayer Conductors with Integrated Capacitors and Associated Systems and Methods

1 - 15 . (canceled) 16 . A transmission line having thickness, comprising: first and second multilayer conductors, each of the multilayer conductors including: at least one separation dielectric layer and a plurality of conductor layers stacked in an alternating manner in the thickness direction, the plurality of conductor layers electrically coupled in parallel, each of the plurality of conductor layers including: a first conductor sublayer, and a second conductor sublayer separated from the first conductor sublayer by a sublayer dielectric layer in the thickness direction, the second conductor sublayer at least partially overlapping with the first conductor sublayer, as seen when viewed cross-sectionally in the thickness direction; the first multilayer conductor mirroring the second multilayer conductor across a center axis of the transmission line, the center axis extending in a lengthwise direction that is orthogonal to the thickness direction. 17 . The transmission line of claim 16 , wherein in each of the multilayer conductors: each of the plurality of conductor layers has a respective area of overlap of the first and second conductor sublayers of the conductor layer, as seen when viewed cross-sectionally in the thickness direction; and at least two of the plurality of conductor layers have respective areas of overlap of different sizes. 18 . The transmission line of claim 16 , wherein, in each of the multilayer conductors: the plurality of conductor layers comprises M conductor layers, where M is an integer greater than one; a first conductor layer of the M conductor layers has a capacitive reactance of X 1 ; a second conductor layer of the M conductor layers has a capacitive reactance of X 2 ; the first conductor layer is a closest conductor layer of the M conductor layers to the center axis of the transmission line; the second conductor layer is a second closest conductor layer of the M conductor layers to the center axis of the transmission line; X 2 =X 1 −( M− 2+1) X LH ; and X LH is an incremental inductive reactance of each of the M conductor layers. 19 . An assembly, comprising: a multilayer conductor, including: at least one separation dielectric layer and a plurality of conductor layers stacked in an alternating manner, each of the plurality of conductor layers including: a first conductor sublayer, and a second conductor sublayer separated from the first conductor sublayer by a sublayer dielectric layer, the second conductor sublayer at least partially overlapping with the first conductor sublayer; and a magnetic core adjacent to at least part of the multilayer conductor. 20 . The assembly of claim 19 , wherein: the at least one separation dielectric layer and the plurality of conductor layers are concentrically stacked in an alternating manner around a common axis; the magnetic core includes a center post; and the common axis forms a loop around the center post and around a center axis of the multilayer conductor. 21 . The assembly of claim 20 , the multilayer conductor having a toroidal shape. 22 . The assembly of claim 21 , wherein: each first conductor sublayer forms a first discontinuity along the common axis, such that the first conductor sublayer does not completely encircle the center axis; each second conductor sublayer forms a second discontinuity along the common axis, such that the second conductor sublayer does not completely encircle the center axis; and each first discontinuity is angularly displaced from each second discontinuity around the center axis. 23 . The assembly of claim 19 , wherein: the at least one separation dielectric layer and the plurality of conductor layers are concentrically stacked in an alternating manner around a center axis; each first conductor sublayer forms a first discontinuity, such that the first conductor sublayer does not completely encircle the center axis; each second conductor sublayer forms a second discontinuity, such that the second conductor sublayer does not completely encircle the center axis; each first discontinuity is angularly displaced from each second discontinuity around the center axis; the magnetic core comprises: first and second end magnetic elements separated in a lengthwise direction parallel to the center axis, and an outer ring disposed around the center axis, the outer ring joining the first and second end magnetic elements in the lengthwise direction; and the multilayer conductor is disposed (a) within the outer ring, and (b) between the first and second end magnetic elements. 24 . The assembly of claim 23 , the multilayer conductor having a cylindrical shape. 25 . The assembly of claim 24 , further comprising a magnetic center post disposed along the center axis and joining the first and second end magnetic elements in the lengthwise direction. 26 . The assembly of claim 25 , the first and second end magnetic elements formed of a magnetic material having a first permeability, and the magnetic center post formed of a magnetic material having a second permeability, the first permeability being larger than the second permeability. 27 . The assembly of claim 25 , the magnetic center post comprising a plurality of discrete magnetic elements separated from each other in the lengthwise direction. 28 . The assembly of claim 19 , wherein: the magnetic core includes: an outer ring, and a center post within the outer ring and extending along a center axis, the center axis extending in a thickness direction; the at least one separation dielectric layer and the plurality of conductor layers are stacked in an alternating manner in the thickness direction; the first and second conductor sublayers are concentrically disposed around the center post; and the multilayer conductor is disposed within the outer ring. 29 . The assembly of claim 28 , wherein: each first conductor sublayer is a foil conductor having a C-shape, as seen when viewed cross-sectionally in the thickness direction; and each second conductor sublayer is a foil conductor having an inverted C-shape, as seen when viewed cross-sectionally in the thickness direction. 30 . The assembly of claim 29 , wherein: each first conductor sublayer forms a first notch; each second conductor sublayer forms a second notch; and each first notch is angularly displaced from each second notch around the center axis. 31 . The assembly of claim 30 , wherein in each of the plurality of conductor layers, the first conductor sublayer, the second conductor sublayer, and the sublayer dielectric layer are stacked in the thickness direction. 32 . The assembly of claim 30 , at least two adjacent conductor layers of the plurality of conductor layers being angularly offset from each other around the center axis. 33 . The assembly of claim 32 , wherein: the magnetic core further includes a base; the center post and the outer ring are disposed on the base in the thickness direction, to form a recess in the magnetic core; the recess is disposed around the common axis; and the multilayer conductor is disposed in the recess. 34 . The assembly of claim 33 , further comprising one or more cooling channels disposed in the recess between the plurality of conductor layers and a bottom surface of the recess, the bottom surface of the recess being formed by the base of the magnetic core, the one or more cooling channels adapted to carry a cooling liquid. 35 . The assembly of clai