Cylindrical magnetic coupling with alternating polarity

What is claimed is: 1. A magnetically coupled piston pump, comprising: a pump body having a longitudinal axis; a piston disposed in the pump body and configured to move within the pump body in a direction parallel to the longitudinal axis, the piston comprising a set of piston magnets, wherein each piston magnet has poles arranged parallel to the longitudinal axis and wherein each piston magnet is arranged in the piston so that the orientation of the poles of each piston magnet is the opposite of the orientation of each adjacent piston magnet; a set of drive magnets arranged outside the pump body, wherein each drive magnet corresponds to a piston magnet and wherein each drive magnet has poles arranged parallel to the longitudinal axis and each drive magnet is arranged so that the orientation of the poles is opposite the orientation of the poles of the piston magnet to which it corresponds; and a cooling system for regulating the temperature within the pump, the cooling system comprising: at least one copper shell attached to each of a first end of the pump body and a second end of the pump body, the at least one copper shell having cold water therein to cool high-compression spaces within the pump body at the first end of the pump body and the second end of the pump body; and a counter-flow heat exchanger configured to pre-cool a fluid with cold water before the fluid enters the pump body. 2. The pump of claim 1 , further comprising a drive unit coupled to the drive magnets for moving the drive magnets in a direction parallel to the longitudinal axis. 3. The pump of claim 1 , further comprising a first flange attached to the first end of the pump body, and a second flange attached to the second end of the pump body, the first and second flanges each having inlet and outlet ports such that the fluid can enter and exit the pump body. 4. The pump of claim 3 , wherein the fluid is argon gas. 5. The pump of claim 3 , wherein the fluid is xenon gas. 6. The pump of claim 2 , wherein the set of piston magnets comprises at least two permanent magnets and the set of drive magnets comprises at least two permanent magnets. 7. The pump of claim 2 , wherein the set of piston magnets comprises three permanent magnets and the set of drive magnets comprises three permanent magnets. 8. The pump of claim 2 , wherein the piston and drive magnets are ring magnets. 9. The pump of claim 2 , wherein each drive magnet of the set of drive magnets comprises a plurality of bar magnets attached to a frame and arranged in a cylindrical configuration. 10. The pump of claim 1 , wherein the pump body is hermetically sealed and the piston is sealed against an interior wall of the pump body with a plurality of gaskets formed of ultra-high molecular weight polyethylene. 11. The pump of claim 1 , wherein the piston magnets and the drive magnets are configured to have a coupling strength of about 790N to about 3500N. 12. The pump of claim 7 , wherein the piston magnets and the drive magnets are configured to have a coupling strength of about 3500N. 13. The pump of claim 1 , wherein adjacent magnets of the set of piston magnets and the set of drive magnets are evenly spaced along the longitudinal axis. 14. The pump of claim 8 , wherein the set of piston magnets and the set of drive magnets have about 10 mm spacing between adjacent magnets along the longitudinal axis. 15. The pump of claim 1 , further comprising a gap of about 8.5 mm transverse to the longitudinal axis between the set of piston magnets and the set of drive magnets. 16. A magnetically coupled drive mechanism, comprising: a piston, comprising at least three piston magnets disposed in a cylindrical frame having a longitudinal axis, wherein each piston magnet has poles arranged parallel to the longitudinal axis and wherein each piston magnet is arranged in the piston so that the orientation of the poles of each piston magnet is the opposite of the orientation of each adjacent piston magnet; at least three drive magnets arranged outside the piston, wherein each drive magnet corresponds to a piston magnet and wherein each drive magnet has poles arranged parallel to the longitudinal axis and each drive magnet is arranged so that the orientation of the poles is opposite the orientation of the poles of the corresponding piston magnet; and a drive unit coupled to the drive magnets for moving the drive magnets in a direction parallel to the longitudinal axis; the piston is configured to be disposed in and permitted to move within a cylindrical pump body in a direction parallel to the longitudinal axis, and the drive unit and drive magnets arranged outside the cylindrical pump body, the cylindrical pump body having a first end, a second end, and a cooling system, the cooling system comprising: at least one copper shell attached to each of the first end of the cylindrical pump body and the second end of the cylindrical pump body, the at least one copper shell having cold water therein to cool high-compression spaces within the cylindrical pump body at the first end of the cylindrical pump body and the second end of the cylindrical pump body; and a counter-flow heat exchanger configured to pre-cool a fluid with cold water before the fluid enters the cylindrical pump body. 17. The drive mechanism of claim 16 , wherein the piston and drive magnets are ring magnets. 18. The drive mechanism of claim 16 , wherein each of the drive magnets comprises a plurality of bar magnets attached to a frame and arranged in a cylindrical configuration.