EMU impulse antenna for low frequency radio waves using giant dielectric and ferrite materials

What is claimed is: 1. An electromagnetic energy source for emitting pulses of electromagnetic energy, the electromagnetic energy source comprising: a sonde assembly including a first section axially aligned with, and spaced from, a second section; an energy storage capacitor including: an electrode mounted in each of the first section and the second section of the sonde assembly and operable to generate an electric field; and a capacitive charge storage medium mounted in each of the first section and the second section of the sonde assembly and surrounding each electrode, where the capacitive charge storage medium is a giant dielectrics and giant permeability ferrite; and a fast-closing switch located between the first section and the second section of the sonde assembly. 2. The electromagnetic energy source according to claim 1 , further including a high voltage power supply connected between the first section and the second section of the sonde assembly. 3. The electromagnetic energy source according to claim 2 , where the fast-closing switch and the high voltage power supply are connected between the electrodes. 4. The electromagnetic energy source according to claim 2 , further including current limiting resistors located between the high voltage power supply and the electrodes. 5. The electromagnetic energy source according to claim 1 , where the electromagnetic energy source further includes a plurality of electromagnetic energy sources emitting pulses of electromagnetic energy to travel through a subsurface hydrocarbon reservoir. 6. The electromagnetic energy source according to claim 1 , where the electromagnetic energy source is movable to a succession of locations in a well borehole for emitting the pulses of electromagnetic energy at the succession of locations for travel through a subsurface hydrocarbon reservoir. 7. The electromagnetic energy source according to claim 1 , where the sonde assembly has a conductor member serving as a first conductor and the electrode serves as a second conductor. 8. The electromagnetic energy source according to claim 7 , where the capacitive charge storage medium is located between the conductor member and the electrode. 9. The electromagnetic energy source according to claim 7 , where the conductor member is electrically isolated from the electrode with the capacitive charge storage medium. 10. A source for emitting the pulses of electromagnetic energy to travel through a subsurface hydrocarbon reservoir for electromagnetic imaging of the subsurface hydrocarbon reservoir, the source comprising the sonde assembly and fast closing switch of claim 1 attached to a wireline for travel in a well borehole to a depth of interest. 11. A system for using pulses of electromagnetic energy for electromagnetic imaging of a subsurface hydrocarbon reservoir, the system comprising: at least one electromagnetic energy source, each electromagnetic energy source including: a sonde assembly attached to a wireline for travel in a well borehole to a depth of interest, the sonde assembly including a first section axially aligned with, and spaced from, a second section; an energy storage capacitor including an electrode mounted in each of the first section and the second section of the sonde assembly and operable to generate an electric field and a capacitive charge storage medium mounted in each of the first section and the second section of the sonde assembly and surrounding each electrode, where the capacitive charge storage medium is a giant dielectrics and giant permeability ferrite; and a fast-closing switch located between the first section and the second section of the sonde assembly; and a plurality of electromagnetic sensors forming a measure of a resulting signal from the electromagnetic energy source. 12. The system according to claim 11 , where the plurality of electromagnetic sensors are mounted in a well tool lowered in sensor bore in the subsurface hydrocarbon reservoir. 13. The system according to claim 11 , where the plurality of electromagnetic sensors are located in an array over an earth surface above the subsurface hydrocarbon reservoir. 14. The system according to claim 12 , further comprising a system control unit for storing information relating to the resulting signal received by the plurality of electromagnetic sensors and for performing a computerized analysis of the resulting signal.