Disposing a carrier downhole in a wellbore to evaluate an earth formation

What is claimed is: 1. A method comprising: disposing a carrier in a borehole in an earth formation, the carrier comprising a logging assembly for performing a formation evaluation of the earth formation using a sensor in proximity to a borehole wall of the borehole, fluid being disposed at least partially between the sensor and the borehole wall; estimating, by a processing device, an apparent dielectric loss angle of the fluid to determine a stand-off effect caused by the fluid using at least one of a logging with a closed pad technique, a logging in a cased-hole section technique, and a log-based estimation technique; estimating, by the processing device, a formation dielectric loss angle; determining, by the processing device, a formation resistance based at least in part on the formation dielectric loss angle; adjusting the formation evaluation based at least in part on the formation resistance that accounts for the stand-off effect caused by the fluid; and performing a wellbore operation based at least in part on the adjusted formation evaluation that accounts for the stand-off effect caused by the fluid, wherein determining the formation resistance comprises comparing the formation dielectric loss angle to a threshold, and wherein when the formation dielectric loss angle is greater than the threshold, the formation resistance is Re ( Z f )˜ Re ( Z )− Im ( Z )*tan(δ ma ), where Re(Z) and Im(Z) are a real component and an imaginary component respectively of an impedance measured by the logging assembly in the borehole in the earth formation and being filled with an oil-based drilling fluid, and δ ma is the apparent dielectric loss angle of the fluid. 2. The method of claim 1 , wherein the logging with a closed pad technique comprises estimating the apparent dielectric loss angle when performing a logging operation within the borehole while a pad connected to the logging assembly is in a closed position. 3. The method of claim 1 , wherein the logging in a cased-hole section technique comprises estimating an apparent dielectric loss angle in a homogeneous fluid from an apparent dielectric loss angle of fluid inside a fluid-filled casing of the borehole. 4. The method of claim 1 , wherein the log-based estimation technique comprises estimating the apparent dielectric loss angle of the fluid based at least in part on a minimum apparent dielectric loss angle of an overall measured impedance through a depth interval of an image log. 5. The method of claim 1 , wherein when the formation dielectric loss angle is less than the threshold, the formation resistance is Re ( Z f )˜ Re ( Z ), where Re(Z) is a real component of an impedance measured by the logging assembly in the borehole in the earth formation and being filled with an oil-based drilling fluid. 6. The method of claim 1 , wherein the apparent dielectric loss angle of the fluid is defined as δ ma = tan - 1 ⁡ ( Re ⁡ ( Z m ) Im ⁡ ( Z m ) ) where δ ma is the apparent dielectric loss angle of the fluid, Re(Z m ) and Im(Z m ) are a real component and an imaginary component respectively of impedance measured by the logging assembly in a homogeneous borehole fluid. 7. The method of claim 1 , wherein the formation dielectric loss angle is determined using a complex refractive index model. 8. A system comprising: a carrier disposed in a borehole in an earth formation, the carrier comprising a logging assembly for performing a formation evaluation of the earth formation using a sensor in proximity to a borehole wall of the borehole, fluid being disposed at least partially between the sensor and the borehole wall; a memory comprising computer readable instructions; and a processing device for executing the computer readable instructions for performing a method comprising: estimating, by the processing device, an apparent dielectric loss angle of the fluid to determine a stand-off effect caused by the fluid using at least one of a logging with a closed pad technique, a logging in a cased-hole section technique, and a log-based estimation technique; estimating, by the processing device, a formation dielectric loss angle; determining, by the processing device, a formation resistance based at least in part on the formation dielectric loss angle; adjusting the formation evaluation based at least in part on the estimated formation resistance that accounts for the stand-off effect caused by the fluid; and performing a wellbore operation based at least in part on the adjusted formation evaluation that accounts for the stand-off effect caused by the fluid wherein when the formation dielectric loss angle is greater than a threshold, the formation resistance is Re ( Z f )˜ Re ( Z )− Im ( Z )*tan(δ ma ), where Re(Z) and Im(Z) are a real component and an imaginary component respectively of an impedance measured by the logging assembly in the borehole in the earth formation and being filled with an oil-based drilling fluid, and δ ma is the apparent dielectric loss angle of the fluid. 9. The system of claim 8 , wherein the logging with a closed pad technique comprises estimating the apparent dielectric loss angle when performing a logging operation within the borehole while a pad connected to the logging assembly is in a closed position. 10. The system of claim 8 , wherein the logging in a cased-hole section technique comprises estimating an apparent dielectric loss angle in a homogeneous fluid from an apparent dielectric loss angle of fluid inside a fluid-filled casing of the borehole. 11. The system of claim 8 , wherein the log-based estimation technique comprises estimating the apparent dielectric loss angle of the fluid based at least in part on a minimum apparent dielectric loss angle of an overall measured impedance through a depth interval of an image log. 12. The system of claim 8 , wherein when the formation dielectric loss angle is less than a threshold, the formation resistance is Re ( Z f )˜ Re ( Z ), where Re(Z) is a real component of an impedance measured by the logging assembly in the borehole in the earth formation and being filled with an oil-based drilling fluid.