Controlled-frequency downhole seismic source

The invention claimed is: 1. A method comprising: placing a downhole seismic source into a borehole in a geological formation, wherein the downhole seismic source is placed using a cable; coupling the downhole seismic source rigidly to the geological formation via a bottom of the borehole; wherein coupling the downhole seismic source rigidly to the geological formation includes installing at least an additional rigid weight over the downhole seismic source and in proximity of the cable to press the downhole seismic source to the bottom of the borehole, and generating a controlled-frequency seismic signal that enables a seismic measurement of the geological formation, wherein the additional right weight includes piping arranged along the cable and wherein installing the additional rigid weight comprises installing piping along the cable and over the downhole seismic source, wherein installing the piping comprises installing piping from the downhole seismic source to equipment at the surface of the earth. 2. The method of claim 1 , wherein the downhole seismic source is coupled to a bottom of the borehole via a rigid material that is more rigid than a fluid at seismic frequencies less than about 500 Hz. 3. The method of claim 1 , wherein coupling the downhole seismic source to the bottom of the borehole further comprises: rigidly coupling the downhole seismic source to a wall or a casing of the borehole via clamps, cams, or wedges, or any combination thereof. 4. The method of claim 1 , wherein the additional right weight further includes weight bars attached between the cable and the downhole seismic source. 5. The method of claim 1 , comprising: drilling the borehole into the geological formation to beneath a weathering layer of the geological formation; and installing casing in the borehole; wherein coupling the downhole seismic source rigidly to the geological formation via the bottom of the borehole comprises further coupling the downhole seismic source to the casing of the borehole. 6. The method of claim 1 , comprising detecting the controlled-frequency seismic signal using a seismic receiver located at a surface of the geological formation, beneath the surface in the same borehole, or beneath the surface in a different borehole. 7. A downhole seismic source comprising: a housing configured to couple to a geological formation via a bottom of a borehole in the geological formation; and an actuator attached to the housing, wherein the actuator is configured to generate a controlled-frequency seismic signal of less than 500 Hz to enable a seismic measurement of the geological formation, wherein the housing is configured to be coupled to a cable extending from the surface to convey the downhole seismic source in a borehole and to pipe extending along the cable that applies weight to the housing, thereby coupling the housing to the edge of the borehole, wherein the pipe extends from the housing of the geological formation to a surface of the geological formation. 8. The downhole seismic source of claim 7 , wherein the housing is configured to rigidly couple to the geological formation via clamps, cams, wedges, weight, gravity, or any combination thereof. 9. The downhole seismic source of claim 7 , wherein the actuator comprises a voice coil, a hydraulic actuator, a piezoelectric actuator, a magenetorestrictive actuator, or a pneumatic actuator, or any combination thereof. 10. The downhole seismic source of claim 7 , comprising a position sensor configured to identify a position of the actuator, wherein the position sensor comprises a capacitive position sensor, an inductive position sensor, a magnetoresistive position sensor, an LVDT position sensor, an optical position sensor, or an electromagnetic reflectance position sensor, or any combination thereof. 11. The downhole seismic source of claim 7 , comprising control circuitry configured control the actuator using a closed-loop control topology. 12. The downhole seismic source of claim 7 , comprising control circuitry configured control the actuator using an open-loop control topology.