Tunable dipole moment for formation measurements

What is claimed is: 1. A system, comprising: at least one transmitter antenna positioned in a borehole within a subterranean formation and configured to transmit a signal into a subterranean formation; at least two receiver antennas coupled to one or more tools positioned in the borehole within the subterranean formation and configured to receive one or more measurements of the subterranean formation associated with the transmitted signal, wherein the at least two receiver antennas are arranged: at different lateral positions with respect to the borehole; in a non-parallel orientation with respect to each other; and in differing azimuthal directions relative to the one or more tools; and an information handling system communicably coupled to the at least two receiver antennas, wherein the information handling system is configured to: receive the one or more measurements from the at least two receiver antennas; and determine a measurement for a pseudo receiver antenna with a different axial position along a length of the one or more tools than the at least two receiver antennas and a different azimuthal direction than the at least two receiver antennas based, at least in part, on the received one or more measurements. 2. The system of claim 1 , wherein the at least two receiver antennas are oriented at a skew angle from the axis of the one or more tools. 3. The system of claim 1 , wherein the at least two receiver antennas are oriented at 45° angles from the axis of the one or more tools. 4. The system of claim 1 , wherein the at least two receiver antennas are oriented in differing azimuthal directions of −30° and 30° relative to the one or more tools. 5. The system of claim 1 , wherein the at least one transmitter antenna is coupled to the one or more tools and is oriented perpendicular to the axis of the one or more tools. 6. The system of claim 1 , wherein the at least one transmitter antenna is coupled to the one or more tools and is oriented at a skew from the axis of the one or more tools. 7. The system of claim 1 , wherein each transmitter antenna and each receiver antenna is coupled to a different tool within a bottom hole assembly positioned within the borehole. 8. The system of claim 7 , wherein each tool comprises at least one of a magnetometer, an inclinometer, and an accelerometer to measure a relative orientation of the at least one transmitter antenna or one of the at least two receiver antennas coupled to the tool. 9. The system of claim 1 , further comprising at least two transmitter antennas configured to transmit signals into the subterranean formation, wherein the at least two transmitter antennas are each oriented at a skew angle from the axis of the one or more tools, and wherein the at least two transmitter antennas are oriented in differing azimuthal directions relative to the one or more tools. 10. A method, comprising: transmitting an electromagnetic signal into a subterranean formation surrounding a borehole; measuring one or more responses of the subterranean formation to the electromagnetic signal using at least two receiver antennas that are at different lateral positions with respect to the borehole, oriented in differing azimuthal directions relative to one or more tools to which the receiver antennas are coupled, and arranged in a non-parallel angular orientation with respect to each other; and determining a response measured by a pseudo receiver antenna with a different axial position along a length of the one or more tools than the at least two receiver antennas, a desired angular orientation, and a desired azimuthal direction with respect to the one or more tools. 11. The method of claim 10 , wherein the at least two receiver antennas are oriented at a skew angle from the axis of the one or more tools. 12. The method of claim 10 , wherein the at least two receiver antennas are oriented at 45° angles from the axis of the one or more tools. 13. The method of claim 10 , wherein the at least two receiver antennas are oriented in differing azimuthal directions of −30° and 30° relative to the one or more tools. 14. The method of claim 10 , wherein transmitting the electromagnetic signal into the subterranean formation surrounding the borehole comprises transmitting the electromagnetic signal from at least one transmitter antenna positioned within the borehole, wherein the at least one transmitter antenna is at least one of: coupled to the one or more tools and is oriented perpendicular to the axis of the one or more tools; or coupled to the one or more tools and is oriented at a skew from the axis of the one or more tools. 15. The method of claim 14 , wherein each transmitter antenna and each receiver antenna is coupled to a different tool within a bottom hole assembly positioned within the borehole. 16. The method of claim 15 , wherein each tool comprises at least one of a magnetometer, an inclinometer, and an accelerometer to measure a relative orientation of the at least one transmitter antenna or one of the at least two receiver antennas coupled to the tool. 17. The method of claim 10 , wherein transmitting the electromagnetic signal into the subterranean formation surrounding the borehole comprises transmitting the electromagnetic signal from at least two transmitter antennas positioned within the borehole, wherein the at least two transmitter antennas are each oriented at a skew angle from the axis of the one or more tools, and wherein the at least two transmitter antennas are oriented in differing azimuthal directions relative to the one or more tools. 18. The method of claim 10 , further comprising determining a response measured by a pseudo receiver antenna tuned to any desired angular orientation with respect to the one or more tools, azimuthal direction with respect to the one or more tools, and axial location along a length of the one or more tools. 19. The method of claim 10 , further comprising determining one or more characteristics of the formation based, at least in part, on the response measured by the pseudo receiver antenna; and altering an operating condition of at least one tool in the borehole based, at least in part, on the one or more characteristics of the formation. 20. A method, comprising: generating a first signal representing a first azimuthally sensitive measurement of a phase shift and attenuation of an electromagnetic signal propagating through a formation around a borehole, the first azimuthally sensitive measurement being collected from a first axial position along the borehole; generating a second signal representing a second azimuthally sensitive measurement of phase shift and attenuation of an electromagnetic signal propagating through the formation around a borehole, wherein the azimuthal sensitivity of the first azimuthally sensitive measurement is in a direction different than that of the second azimuthally sensitive measurement, the second azimuthally sensitive measurement being collected from a second axial position along the borehole separated from the first axial position; and determining a pseudo dipole orientation at a third axial position along the borehole different from the first and second axial positions and having a maximum dipole amplitude synthesized from the first and second signals.