Tunable acoustic transmitter for downhole use

What is claimed is: 1. An acoustic transmitter for generating an acoustic signal, comprising: an actuator module; and a tuning module coupled to the actuator module, the tuning module comprising an electromagnetic coil, a variable electrical source, and a magnetic-rheological fluid, wherein the variable electrical source is in electrical communication with the electromagnetic coil and the electromagnetic coil is at least partially disposed in a magneto-rheological fluid; wherein the acoustic transmitter is arranged so that during operation, the actuator module converts an electrical signal into vibration to generate an acoustic signal, and the variable electrical source applies a current to the electromagnetic coil such that a resonant frequency of the actuator module varies depending on the applied current. 2. The acoustic transmitter of claim 1 , wherein the acoustic transmitter is arranged so that during operation, the variable electrical source applies a current across a section of the electromagnetic coil of variable size. 3. The acoustic transmitter of claim 2 , wherein the frequency of the acoustic signal varies depending on a size of the section of the electromagnetic coil and/or a strength of a magnetic field induced by the applied current. 4. The acoustic transmitter of claim 2 , wherein the acoustic transmitter is arranged so that during operation, the section of the electromagnetic coil is selectable from among two or more portions. 5. The acoustic transmitter of claim 4 , wherein the two or more portions at least partially overlap. 6. The acoustic transmitter of claim 1 , wherein the acoustic transmitter is arranged so that during operation, the tuning module varies a viscosity of the magneto-rheological fluid by varying the current applied to the electromagnetic coil. 7. The acoustic transmitter of claim 1 , wherein the acoustic transmitter is arranged so that during operation, the transmitter varies an effective mass of the tuning module by varying the current applied to the electromagnetic coil. 8. The acoustic transmitter of claim 1 , wherein the resonant frequency of the actuator module varies inversely with respect to the current applied to the electromagnetic coil. 9. The acoustic transmitter of claim 1 , wherein a size of a section of the electromagnetic coil to which the current is applied is variable and the frequency of the acoustic signal varies inversely with respect to the size of the section. 10. The acoustic transmitter of claim 1 , wherein the actuator module comprises a piezoelectric stack. 11. The acoustic transmitter of claim 10 , wherein the piezoelectric stack is enclosed in a sleeve. 12. The acoustic transmitter of claim 1 , wherein the actuator module comprises a magnetostrictive material. 13. A downhole logging tool comprising: a logging module for inclusion in a drill string, the logging module comprising: an acoustic transmitter, the acoustic transmitter including; an actuator module; and a tuning module coupled to the actuator module, the tuning module comprising an electromagnetic coil, a variable electrical source, and a magnetic-rheological fluid, wherein the variable electrical source is in electrical communication with the electromagnetic coil and the electromagnetic coil is at least partially disposed in a magneto-rheological fluid; wherein the acoustic transmitter is arranged so that during operation, the actuator module converts an electrical signal into vibration to generate an acoustic signal, and the variable electrical source applies a current to the electromagnetic coil such that a resonant frequency of the actuator module varies depending on the applied current; an acoustic receiver; and a control module; wherein the logging module is arranged so that during use, the control module controls the resonant frequency of the actuator module by adjusting the applied current, and the acoustic receiver detects the acoustic signal. 14. The downhole logging tool of claim 13 , wherein the resonant frequency is selected from a range of frequencies that overlaps a pass-band of the drill string. 15. A method of adjusting a resonant frequency of an acoustic transmitter, the method comprising: applying an electrical signal to an actuator of the acoustic transmitter to generate an acoustic signal; and selecting a resonant frequency of the acoustic transmitter by applying a current across an electromagnetic coil of the acoustic transmitter, the electromagnetic coil being at least partially disposed within a magneto-rheological fluid. 16. The method of claim 15 , further comprising adjusting the resonant frequency of the acoustic transmitter by adjusting the applied current. 17. The method of claim 15 , wherein the current is applied across a section of the electromagnetic coil, and wherein the method further comprises adjusting the resonant frequency of the acoustic transmitter by adjusting a size of the section of the electromagnetic coil. 18. The method of claim 17 , further comprising adjusting the resonant frequency of the acoustic transmitter by selecting the section from among two or more portions of the electromagnetic coil. 19. The method of claim 17 , wherein the resonant frequency of the acoustic transmitter varies inversely with respect to the size of the section of the electromagnetic coil. 20. The method of claim 15 , wherein the resonant frequency of the acoustic transmitter varies inversely with respect to the applied current. 21. A method of communicating between two components of a well, the method comprising: applying an electrical signal to an actuator of an acoustic transmitter to generate an acoustic signal; controlling a resonant frequency of the acoustic transmitter by applying a current across an electromagnetic coil of the acoustic transmitter, the electromagnetic coil being at least partially disposed within a magneto-rheological fluid; directing the acoustic signal into a structure of the well; and obtaining a communications signal by detecting an acoustic signal propagating along the structure. 22. The method of claim 21 , further comprising adjusting a resonant frequency of the acoustic signal to correspond to a pass-band of a drill string. 23. The acoustic transmitter of claim 10 , wherein the piezoelectric stack is axially compressed between a top nut and a backing mass.