Time-lapse time-domain reflectometry for tubing and formation monitoring

What is claimed is: 1. A system for analyzing properties of and locating defects in a wellbore in a formation, comprising: a casing positioned within the wellbore; a tubing positioned within the casing, wherein the tubing extends concentrically within the casing; a pulse generator having a plurality of ports that generate one or more electromagnetic pulses and receive one or more reflected electromagnetic pulses, wherein a first one of the plurality of ports is coupled to a first contact at a first location of interest and a second one of the plurality of ports is coupled to a second contact at a second location of interest, and wherein the first location of interest and the second location of interest are selected from a group consisting of a first axial location along the casing and a second axial location along the casing, a first position and a second position along a perimeter of the casing, the casing and a ground terminal, the tubing and a body of a logging tool, and a body of a logging tool and an electrode on a logging tool, respectively, and a data storage device coupled to the pulse generator, wherein the data storage device stores data relating to the one or more reflected magnetic pulses. 2. The system of claim 1 , wherein the pulse generator is located at a surface of the formation. 3. The system of claim 1 , wherein the pulse generator is located at least partially inside the wellbore. 4. The system of claim 1 , wherein the first contact and the second contact are located at substantially the same axial location. 5. The system of claim 1 , wherein the ground terminal is located outside of the casing. 6. The system of claim 1 , wherein the logging tool is movable between a first axial position along the wellbore and a second axial position along the wellbore. 7. A system for analyzing a wellbore in a formation, comprising: a casing positioned within the wellbore; a tubing positioned within the casing, wherein the tubing extends concentrically within the casing; a pulse generator, having a plurality of generating ports, wherein an electromagnetic pulse is generated at the generating ports; wherein a first one of the plurality of generating ports is coupled to a first location of interest and a second one of the plurality of generating ports is coupled to a second location of interest, wherein the first location of interest and the second location of interest are selected from a group consisting of the casing and a ground terminal, the tubing and a body of a logging tool, and a body of a logging tool and electrodes on a logging tool, respectively, a pulse receiver, having a plurality of receiving ports, wherein a reflection of the electromagnetic pulse is received at the receiving ports; and a data storage device, wherein data relating to the reflection of the electromagnetic pulse is stored at the data storage device. 8. The system of claim 7 , wherein a first one of the receiving ports and a second one of the receiving ports are positioned at a location selected from a group consisting of the casing and the tubing, the casing and a ground terminal, the tubing and a body of a logging tool, and a body of a logging tool and electrodes on a logging tool, respectively. 9. The system of claim 7 , wherein the logging tool is movable along the wellbore. 10. The system of claim 7 , wherein the pulse receiver is an oscilloscope. 11. The system of claim 7 , wherein the pulse generator and pulse receiver are located at a surface of the wellbore. 12. The system of claim 7 , wherein the pulse generator and pulse receiver are located inside the wellbore. 13. A method of monitoring a wellbore, comprising: generating a first electromagnetic pulse and a second electromagnetic pulse at a pulse generator, wherein the first electromagnetic pulse and the second electromagnetic pulse are directed to a location of interest; wherein the location of interest is selected from a group consisting of: a deformation in a casing, a deformation in a tubing, a change in thickness of the casing, a change in thickness of the tubing, a change in an electromagnetic property of a fluid in an annulus between the casing and the tubing, and a change in an electromagnetic property in a formation outside the casing; receiving a reflection of the first electromagnetic pulse at the pulse generator at a first point in time, receiving a reflection of the second electromagnetic pulse at the pulse generator at a second point in time, wherein the difference between the second point in time and the first point in time comprises a time-lapse; collecting a plurality of time-lapses; plotting the plurality of time-lapses as a function of time. 14. The method of claim 13 , wherein a first electromagnetic pulse is generated at a first port of the pulse generator and a second electromagnetic pulse is generated at a second port of the pulse generator, and wherein a reflection of the first electromagnetic pulse is received at the first port of the pulse generator and a reflection of the second electromagnetic pulse is received at the second port of the pulse generator. 15. The method of claim 13 , wherein a first electromagnetic pulse is generated at a first port of the pulse generator, a reflection of the first electromagnetic pulse is received at a third contact and transmitted to a third port of the pulse generator, and wherein a second electromagnetic pulse is generated at a second port of the pulse generator and a reflection of the second electromagnetic pulse is received at a fourth contact and transmitted to a fourth port of the pulse generator. 16. The method of claim 13 , further comprising: inverting the plurality of time-lapses to obtain a distribution of a casing shape. 17. The method of claim 13 , further comprising: inverting the plurality of time-lapses to obtain a distribution of electromagnetic properties of a fluid in a wellbore. 18. The method of claim 13 , wherein the frequency of the electromagnetic pulse applied is between approximately 1 Hz and approximately 10 GHz. 19. The method of claim 13 , wherein the location of the pulse generator is selected from a group consisting of: the casing, the tubing, a ground terminal, a body of a logging tool, and an electrode on the logging tool.