Frequency selective limiter

What is claimed is: 1. In combination: a ferromagnetic material; and a slow wave structure disposed to magnetically couple a magnetic field, produced by electromagnetic energy propagating through the slow wave structure, into the ferromagnetic material; wherein the slow wave structure is a transmission line having a first transmission line section disposed between a pair of second transmission line sections; wherein the first transmission line section and the pair of second transmission lines sections comprise: the first transmission line section having a strip conductor and a pair of ground plane conductors; and wherein the strip conductor comprises a first strip conductor section disposed between the pair of second transmission lines sections, and wherein the first strip conductor section is separated from a portion of the pair of ground plane conductors disposed over and under the first strip conductor section at a first distance D1, and wherein the pair of second transmission lines sections are separated from portions of the ground plane conductor disposed over and under the pair of second transmission lines sections at a second distance D2, where D1 and D2 are different distances. 2. In combination: a ferromagnetic material; and a slow wave structure disposed to magnetically couple a magnetic field, produced by electromagnetic energy propagating through the slow wave structure, into the ferromagnetic material; and wherein the slow wave structure is a transmission line having an input impedance, Z 0 and wherein the transmission line includes a first transmission line section disposed between a pair of second transmission line sections, wherein the first transmission line section has an impedance Z H that is higher than Z 0 and the pair of second transmission line sections have an impedance that is lower than Z 0 . 3. The combination recited in claim 2 wherein the first transmission line section and the pair of second transmission lines sections each have a length shorter than a nominal operating wavelength of the electromagnetic energy propagating through the slow wave structure. 4. A slow wave structure having a magnetic material to magnetically couple a magnetic field, produced by electromagnetic energy propagating through the slow wave structure, into the magnetic material; and wherein the slow wave structure has an input impedance Z 0 and wherein the impedances periodically change from an impedance greater than Z 0 to an impedance less than Z 0 as the electromagnetic energy propagates through the slow wave structure. 5. In combination: a ferromagnetic material; and a slow wave structure disposed to magnetically couple a magnetic field, produced by electromagnetic energy propagating through the slow wave structure, into the ferromagnetic material; wherein the slow wave structure is a transmission line having a first transmission line section disposed between a pair of second transmission line sections; and wherein the first transmission line section and the pair of second transmission lines sections comprise: the first transmission line section having a strip conductor and at least one ground plane conductor, and wherein the ferromagnetic material is disposed between the strip conductor and the at least one ground plane conductor; and wherein the strip conductor comprises a first strip conductor section disposed between the pair of second transmission lines sections, and wherein the first strip conductor section is separated from a portion of the at least one ground plane conductor disposed over the first strip conductor section at a first distance D1, and wherein the pair of second transmission lines sections are separated from portions of the at least one ground plane conductor disposed over the pair of second transmission lines sections at a second distance D2, where D1 and D2 are different distances.