Electromagnetic telemetry for measurement and logging while drilling and magnetic ranging between wellbores

What is claimed is: 1. A method for signal communication between a well drilling instrument and the Earth's surface, comprising: generating an electromagnetic field in an instrument disposed in a drill string used to drill a wellbore, the electromagnetic field comprising encoded measurements from at least one sensor associated with the instrument; measuring a signal corresponding to an amplitude of the electromagnetic field; and decoding the measurements from the measured signal, wherein the signal comprises at least one of; a voltage imparted across a casing in the wellbore and an electrode disposed to a selected depth below the Earth's surface at a selected lateral distance from the casing, wherein the electrode comprises at least one of an electrical conductor, a casing of a second wellbore, and a signal wire disposed in a conduit, a voltage imparted across a casing in a second wellbore and a signal wire or an electrode disposed to a selected depth below the Earth's surface, a voltage imparted across an electrode tube and a signal wire disposed to a selected depth below the Earth's surface, and a voltage induced in an electromagnetic receiver disposed at a selected depth below the Earth's surface wherein the selected depth is at least a bottom depth of a shallowest formation below a water table having a highest resistivity within 500 meters of the surface and wherein the selected lateral distance comprises a distance from a drilling unit wherein electrical noise amplitude therefrom is reduced by at least a factor of two from the noise amplitude at a distance of 50 meters from the drilling unit. 2. The method of claim 1 wherein the selected depth below the Earth's surface comprises a depth of a deepest electrically conductive formation disposed above or below a reservoir formation. 3. The method of claim 1 wherein the generating an electromagnetic field comprises imparting a time varying voltage across in insulating gap between electrically conductive components of the instrument. 4. The method of claim 1 further comprising: inducing an electromagnetic field in the Earth's subsurface, the electromagnetic field comprising an encoded signal; detecting the electromagnetic field in an instrument disposed in a wellbore being drilled through subsurface formations; and decoding the signal in the instrument, wherein the detecting the electromagnetic field comprises measuring a voltage induced across an insulating gap between electrically conductive parts of the instrument, and wherein the inducing an electromagnetic field comprising applying a time varying voltage to at least one of; a casing in the wellbore and an electrode disposed to the selected depth and at the selected distance from the casing, wherein the electrode comprises at least one of an electrical conductor, a casing of a second wellbore, and a signal wire disposed in a conduit, the casing in the second wellbore and a signal wire or an electrode disposed to the selected depth, an electrode tube and a signal wire disposed to the selected depth, and an electromagnetic receiver disposed at the selected depth. 5. A method for communication of signals between a wellbore drilling instrument and the Earth's surface, comprising: generating an electromagnetic field in the wellbore drilling instrument disposed in a first wellbore, the electromagnetic field comprising encoded signals corresponding to measurements of at least one sensor associated with the instrument; detecting the electromagnetic field using at least one electromagnetic receiver disposed in a second wellbore proximate the first wellbore, wherein the at least one electromagnetic receiver is in electrical communication with the Earth's surface using an electrical cable and is disposed at a depth below a water table having a highest resistivity within 500 meters of the surface; and transmitting a signal to the Earth's surface corresponding to the detected electromagnetic field along the electrical cable. 6. The method of claim 5 further comprising transmitting a magnetic field from the second well; detecting an amplitude of the magnetic field using a sensor in the instrument in the first well; determining a distance between the first well and the second well using the detected amplitude; and encoding the generated electromagnetic field to include a signal corresponding to the determined distance. 7. The method of claim 6 wherein the transmitted magnetic field comprises applying electrical current to an electromagnetic transceiver disposed in the second well. 8. The method of claim 6 wherein the transmitted magnetic field comprises including at least one segment of a magnetized casing in a wellbore casing disposed in the second well. 9. The method of claim 6 wherein the sensor comprises a multiaxial magnetometer. 10. The method of claim 5 further comprising generating an electromagnetic field in the second wellbore by passing electrical current through an electromagnetic transceiver disposed in the second well, the current conducted along the electrical cable, the electromagnetic field comprising an encoded signal; detecting the generated electromagnetic field from the second well in the instrument in the first wellbore; and decoding the encoded signal in the instrument in the first wellbore. 11. The method of claim 10 wherein the detecting the electromagnetic field in the first wellbore comprises measuring a voltage induced across an insulating gap between electrically conductive parts of the instrument. 12. A system for communication between a wellbore instrument and the Earth's surface, comprising: an electromagnetic field generator associated with the wellbore instrument, the electromagnetic field generator configured to encode measurements made by at least one sensor associated with the wellbore instrument; and an electromagnetic field detector in signal communication with the Earth's surface, the electromagnetic field detector comprising at least one of; a casing in the wellbore and an electrode disposed to a selected depth below the Earth's surface at a selected lateral distance from the casing, wherein the electrode comprises at least one of an electrical conductor, a casing of a second wellbore, and a signal wire disposed in a conduit, a casing in a second wellbore and a signal wire or an electrode disposed to a selected depth below the Earth's surface, an electrode tube and a signal wire disposed to a selected depth below the Earth's surface, an electromagnetic receiver disposed at the selected depth; and a voltage measuring system disposed at the Earth's surface and in signal communication with the electromagnetic field detector; wherein the selected depth is at least a bottom depth of a shallowest formation below a water table having a highest resistivity within 500 meters of the surface; and wherein the selected lateral distance comprises a distance from a drilling unit wherein electrical noise amplitude therefrom is reduced by at least a factor of two from the noise amplitude at a distance of 50 meters from the drilling unit. 13. The system of claim 12 further comprising: an electromagnetic field generator associated with the voltage measuring system, the electromagnetic field generator associated with the voltage measuring system configured to encode a signal in an electrical current generated thereby and in signal communication with the electromagnetic field detector; and an electromagnetic field detector associated with the wellbore instrument, the wellbore instrument configured to decode the encoded signal in the electrical current. 14. The system of claim 12 wherei