Gyromagnetic nonlinear transmission line for radio frequency signal generation and pulse compression

What is claimed is: 1. A non-linear transmission line apparatus, comprising: an outer conductor having a first side and a second internally facing side; an inner conductor positioned internal to the non-linear transmission line apparatus; a ferromagnetic material surrounding the inner conductor, wherein the ferromagnetic material comprises nanoparticles of an ε-polymorph of iron oxide expressed as ε-Fe 2 O 3 having an anisotropy constant, K 1 , value of between 0.2-0.5, and wherein the K 1 value between 0.2-0.5 eliminates a requirement of an applied magnetic field, H app ; and a first dielectric material positioned between the outer conductor and the inner conductor, the first dielectric material in contact with both the ferromagnetic material and with the second internally facing side of the outer conductor, wherein the outer conductor, the inner conductor, the first dielectric material and the ferromagnetic material form the non-linear transmission line apparatus. 2. The non-linear transmission line apparatus of claim 1 , wherein the non-linear transmission line apparatus is structured as a coaxial transmission line, and wherein the outer conductor, the first dielectric material, and the ferromagnetic material are structured to be tubular in shape and the inner conductor is structured to be cylindrical in shape. 3. The non-linear transmission line apparatus of claim 1 , wherein the outer conductor and the inner conductor comprise gold, copper, or aluminum, or an alloy of two or more of gold, copper, and aluminum. 4. The non-linear transmission line apparatus of claim 1 , wherein the ε-Fe 2 O 3 ferromagnetic material has a ferromagnetic resonance frequency between 30 and 200 GHz. 5. A non-linear transmission line apparatus comprising: an outer conductor having a first side and a second internally facing side; an inner conductor positioned internal to the non-linear transmission line apparatus; a ferromagnetic material surrounding the inner conductor, wherein the ferromagnetic material comprises nanoparticles of an ε-polymorph of iron oxide expressed as ε-Fe 2 O 3 ; a first dielectric material positioned between the outer conductor and the inner conductor, the first dielectric material in contact with both the ferromagnetic material and with the second internally facing side of the outer conductor; a second outer conductor with a second side and a third internally facing side; and a second dielectric material with a third side and a fourth side structured with the third side in contact with the third internally facing side of the second outer conductor, wherein the outer conductor, the second outer conductor, the inner conductor, the first dielectric material, the second dielectric material, and the ferromagnetic material form the non-linear transmission line apparatus, wherein the ferromagnetic material is structured to be in contact with the fourth side of the second dielectric material. 6. The non-linear transmission line apparatus of claim 5 , wherein the non-linear transmission line apparatus is structured as a stripline transmission line, and wherein the outer conductor and the second outer conductor, the first and second dielectric material, and the ferromagnetic material are structured to be planar in shape and the inner conductor is structured to be cylindrical in shape. 7. The non-linear transmission line apparatus of claim 5 , wherein the non-linear transmission line apparatus is structured as a stripline transmission line, and wherein the outer conductor and second outer conductor, the first and second dielectric materials, and the ferromagnetic material are structured to be planar in shape and the inner conductor is structured to be planar in shape. 8. A ferromagnetic resonant signal generator apparatus, comprising: an electrical input pulse generator comprising: a switch configured to receive a high-voltage direct current voltage from a voltage source; and a non-linear transmission line comprising: at least two conductors that form a radio frequency or microwave transmission line, wherein the non-linear transmission line is configured to receive an electrical input pulse; and a ferromagnetic material comprising nanoparticles of an ε-polymorph of iron oxide expressed as ε-Fe 2 O 3 , wherein the at least two conductors and the ferromagnetic material are structured to generate ferromagnetic resonance signal in response to the electrical input pulse. 9. The ferromagnetic resonant signal generator apparatus of claim 8 , wherein the ε-Fe 2 O 3 ferromagnetic material has an anisotropy constant, K 1 , value of between 0.2-0.5, and wherein the K 1 value between 0.2-0.5 eliminates a requirement of an applied magnetic field, H app . 10. The ferromagnetic resonant signal generator apparatus of claim 8 , wherein the high-voltage direct current voltage produced from the voltage source is between 1 kV and 10 kV. 11. The ferromagnetic resonant signal generator apparatus of claim 8 , wherein the switch comprises a photoconductive semiconductor switch (PCSS). 12. The ferromagnetic resonant signal generator apparatus of claim 11 , wherein the PCSS is turned-on by a pulse of light generated by a laser. 13. The ferromagnetic resonant signal generator apparatus of claim 8 , wherein the switch comprises an electrical semiconductor switch. 14. The ferromagnetic resonant signal generator apparatus of claim 8 , wherein the ferromagnetic resonance signal comprises oscillations with amplitude following an envelope. 15. The ferromagnetic resonant signal generator apparatus of claim 14 , wherein the oscillations have a frequency between 30 and 200 GHz, and the envelope has a Gaussian pulse shape. 16. The ferromagnetic resonant signal generator apparatus of claim 8 , further comprising: a load structured to receive the ferromagnetic resonance signal from the non-linear transmission line and to convert the ferromagnetic resonance signal to electromagnetic waves. 17. The ferromagnetic resonant signal generator apparatus of claim 16 , wherein the load is an antenna.