Systems and methods for non-contact tensioning of a metal strip

That which is claimed: 1. A method of processing a metal strip comprising: passing the metal strip adjacent a magnetic rotor while passing the metal strip from a last work stand of a metal processing line to a rewind coiler downstream from the last work stand, wherein the magnetic rotor is spaced apart from the metal strip by a first distance; rotating the magnetic rotor to induce a magnetic field into the metal strip such that the metal strip is tensioned in an upstream direction or a downstream direction between the last work stand and the rewind coiler; detecting a first rewind tension in the metal strip downstream from the magnetic rotor; detecting a second rewind tension in the metal strip upstream from the magnetic rotor; and tensioning the metal strip through the magnetic rotor without contacting the metal strip such that a tension from the magnetic rotor reduces the second rewind tension while maintaining the first rewind tension. 2. The method of claim 1 , wherein the magnetic rotor is a top magnetic rotor of a set of magnetic rotors comprising the top magnetic rotor and a bottom magnetic rotor vertically offset from the top magnetic rotor by a gap, wherein passing the metal strip adjacent the magnetic rotor comprises passing the metal strip through the gap, and wherein tensioning the metal strip comprises rotating the top magnetic rotor and the bottom magnetic rotor to induce the magnetic field into the metal strip such that the metal strip is tensioned. 3. The method of claim 2 , wherein the top magnetic rotor and the bottom magnetic rotor are horizontally offset. 4. The method of claim 1 , further comprising guiding a leading edge of the metal strip to the rewind coiler by tensioning the metal strip in the downstream direction. 5. The method of claim 1 , further comprising guiding a trailing edge of the metal strip to the rewind coiler by tensioning the metal strip in the upstream direction after the trailing edge has exited a roll gap of the last work stand. 6. The method of claim 1 , further comprising: determining a tension at the rewind coiler; determining the tension added by the magnetic rotor; calculating the tension at an entry of the work stand by summing the tension at the rewind coiler and the tension added by the magnetic rotor; comparing the tension calculated at the entry of the work stand to a desired tension; and controlling the magnetic rotor such that the tension calculated at the entry of the work stand matches the desired tension. 7. The method of claim 1 , further comprising modulating tension from the magnetic rotor by vertically adjusting the magnetic rotor relative to the metal strip to adjust the first distance, adjusting a rotational speed of the magnetic rotor, or adjusting a direction of rotation of the magnetic rotor.