Electromagnetic sensing apparatus for borehole acoustics

What is claimed is: 1. A method for determining borehole acoustics, comprising: positioning a downhole tool within a borehole, wherein the downhole tool comprises an acoustic source, an electromagnetic (EM) source and at least one EM sensor, wherein the EM source and the at least one EM sensor are positioned a distance of at or about 0.5 inches or less to a wall of the borehole; emitting, from the acoustic source, an acoustic wave in a borehole disposed within a formation, wherein the acoustic wave generates a first electrical signal in an electromagnetic (EM) field generated by the EM source within the borehole, and wherein the first electrical signal is at or above 10 kilohertz; determining at least one downhole characteristic based, at least in part, on the measured first electrical signal; measuring a second electrical signal, wherein the second electrical signal is not generated by the acoustic wave; and determining the presence of a leak using the measured first electrical signal and the measured second electrical signal, wherein the leak is associated with a fluid flow, wherein the leak is flow of fluid outside of a pipe, and wherein the downhole tool is disposed in the pipe in a static position. 2. The method of claim 1 , wherein the EM field within the borehole comprises the Earth's magnetic field. 3. The method of claim 1 , wherein the EM source comprises at least one of a magnet, a direct or oscillating (DC or AC) current source, a solenoid winding, and an antenna. 4. The method of claim 1 , wherein the at least one EM sensor comprises an array of antennae. 5. A method for determining borehole acoustics, comprising: positioning a downhole tool within a borehole disposed in a formation, wherein the downhole tool comprises at least one acoustic source, an electromagnetic (EM) source and at least on electromagnetic (EM) sensor, wherein the EM source and the at least one EM sensor are positioned a distance of at or about 0.5 inches or less to a wall of the borehole; emitting an acoustic wave from the at least one acoustic source, wherein the acoustic wave generates an electrical signal in an EM field generated by the EM source within the borehole, and wherein the first electrical signal is at or above 10 kilohertz; determining at least one downhole characteristic based, at least in part, on the measured first electrical signal; measuring a second electrical signal, wherein the second electrical signal is not generated by the acoustic wave; and determining the presence of a leak using the measured first electrical signal and the measured second electrical signal, wherein the leak is associated with a fluid flow, wherein the leak is flow of fluid outside of a pipe, and wherein the downhole tool is disposed in the pipe in a static position. 6. The method of claim 5 , wherein the EM field within the borehole comprises the Earth's magnetic field. 7. The method of claim 5 , wherein: the EM source comprises at least one of a magnet, a direct or oscillating (DC or AC) current source, a solenoid winding, and an antenna. 8. The method of claim 5 , wherein the at least one EM sensor comprises an array of antennae. 9. The method of claim 5 , wherein the at least one downhole characteristics comprises a formation slowness. 10. A system for pipe inspection in a subterranean formation, comprising: a downhole tool, wherein the downhole tool comprises at least one acoustic source, an electromagnetic (EM) source and one EM sensor, wherein the EM source and the at least one EM sensor are positioned a distance of at or about 0.5 inches or less to a wall of the borehole; at least one processor in communication with the at least one acoustic source and the at least one EM sensor, wherein the processor is coupled to at least one memory element containing a set of instruction that when executed by the processor cause the processor to: signal the at least on acoustic source to emit an acoustic wave into an EM field generated by the EM source within the borehole, and wherein the first electrical signal is at or above 10 kilohertz; signal the at least one EM sensor to measure a first electrical signal generated by the acoustic wave in the EM field; determine at least one downhole characteristic based, at least in part, on the measured electrical signal; signal the at least one EM sensor to measure a second electrical signal not generated by the acoustic wave in the EM field; and determine the presence of a leak associated with a fluid flow using the measured first electrical signal and the measured second electrical signal, wherein the leak is flow of fluid outside of a pipe, and wherein the downhole tool is disposed in the pipe in a static position. 11. The system of claim 10 , wherein the at least one EM source comprises at least one of a magnet, a direct or oscillating (DC or AC) current source, a solenoid winding, and an antenna.