Milling well casing using electromagnetic pulse

What is claimed is: 1. An electromagnetic device for well casings, said device comprising: a mandrel; a coil core carried by and radially extending from said mandrel, said coil core having a distal end and a proximal end; a coil disposed on the coil core; a current supply device coupled to the coil; and a power supply coupled to the current supply device; wherein the current supply device is operable to supply a current to the coil to generate an electromagnetic field therein, said electromagnetic field disposed to create a magnetic field in said casing to at least one of perforate a casing or weld a casing from within said casing. 2. The device of claim 1 , further comprising a stabilizing member carried by said mandrel and capable of extending from said mandrel to engage the casing. 3. The device of claim 2 , wherein said stabilizing member is spaced apart on the mandrel from the coil core. 4. The device of claim 1 , wherein said coil comprises wire wrapped around at least a portion of the distal end of said coil core. 5. The device of claim 1 , wherein said coil core is an elongated cylinder having a circular cross-section. 6. A wellbore system, comprising: a formation defining a wellbore; a well casing defining a casing passageway and located in the wellbore; a current supply device; a power supply coupled to the current supply device; and Customer No. 27683 an electromagnetic perforation device disposed in said casing passageway, said electromagnetic perforation device comprising: a mandrel; a coil core carried by and radially extending from said mandrel, said coil core having a distal end and a proximal end; a coil disposed on the coil core and coupled to said current supply device; wherein the current supply device is operable to supply a current to the coil to create an electromagnetic field in said coil and create a magnetic field in said casing. 7. The drilling system of claim 6 , wherein a portion of said well casing is formed of conductive material, wherein said electromagnetic perforation device is disposed in the well casing so that said distal end of said coil core is positioned adjacent the conductive portion of the well case. 8. The drilling system of claim 6 , wherein a portion of said well casing is formed of conductive material, said system further comprising a stabilizing member carried by said mandrel spaced apart from said coil core, said stabilizer extending from said mandrel to engage the well casing, wherein said electromagnetic perforation device is disposed in the well casing so that said distal end of said coil core is positioned adjacent the conductive portion of the well case. 9. The system of claim 6 , further comprising a stabilizing member located on an opposite side of the mandrel from the coil core. 10. The system of claim 9 , wherein the coil located on the coil core comprises a first coil, and wherein the device further comprises a second coil located on the stabilizing member and coupled to the current supply device, wherein the current supply device is operable to supply a current to the second coil to create an electromagnetic field that induces a magnetic field in the well casing, and wherein the electromagnetic field and the magnetic field are operable to produce a plurality of magnetic forces that are sufficient to overcome a yield strength of the well casing and perforate the well casing. 11. The system of claim 6 , wherein the well casing is fabricated from a first material, and wherein the well casing further comprises a perforation section that is fabricated from a second material that is different from the first material. 12. The system of claim 6 , wherein the well casing comprises a first thickness, and wherein the well casing further comprises a perforation section that comprises a second thickness that is smaller than the first thickness. 13. A wellbore system, comprising: a formation defining a wellbore; a well casing defining a casing passageway and located in the wellbore; a current supply device; a power supply coupled to the current supply device; an electromagnetic perforation device disposed in said casing passageway, said electromagnetic perforation device comprising: a mandrel; a coil core carried by said mandrel, said coil core having a distal end and a proximal end; a coil disposed on the coil core and coupled to said current supply device; wherein the current supply device is operable to supply a current to the coil to create an electromagnetic field therein; a plurality of sealing members carried by the mandrel and disposed to engage the well casing, wherein the coil core and the coil are carried by the mandrel between at least two sealing members; and a fluid evacuator carried by the mandrel and operable to evacuate a fluid from a volume defined between the at least two sealing members. 14. The wellbore system of claim 13 , wherein a portion of said well casing is formed of conductive material, wherein said electromagnetic perforation device is disposed in the well casing so that said distal end of said coil core is positioned adjacent the conductive portion of the well case. 15. The wellbore system of claim 13 , wherein a portion of said well casing is formed of conductive material, said system further comprising a stabilizing member carried by said mandrel spaced apart from said coil core, said stabilizer extending from said mandrel to engage the well casing, wherein said electromagnetic perforation device is disposed in the well casing so that said distal end of said coil core is positioned adjacent the conductive portion of the well case. 16. The wellbore system of claim 13 , further comprising a stabilizing member located on an opposite side of the mandrel from the coil core. 17. The system of claim 16 , wherein the coil located on the coil core comprises a first coil, and wherein the device further comprises a second coil located on the stabilizing member and coupled to the current supply device, wherein the current supply device is operable to supply a current to the second coil to create an electromagnetic field that induces a magnetic field in the well casing, and wherein the electromagnetic field and the magnetic field are operable to produce a plurality of magnetic forces that are sufficient to overcome a yield strength of the well casing and perforate the well casing. 18. The wellbore system of claim 13 , wherein the well casing is fabricated from a first material, and wherein the well casing further comprises a perforation section that is fabricated from a second material that is different from the first material. 19. The wellbore system of claim 13 , wherein the well casing comprises a first thickness, and wherein the well casing further comprises a perforation section that comprises a second thickness that is smaller than the first thickness.