Escapement with escape wheel with field ramps and non-return

What is claimed is: 1. A timepiece escapement mechanism comprising: at least one resonator and at least one escape wheel arranged to cooperate with said resonator through a stopper forming part of said escapement mechanism, wherein said escape wheel comprises a succession of tracks carrying magnetic or electrostatic field potential ramps, and said ramps are arranged to cooperate with said resonator or respectively with said stopper; and at least one non-return device arranged to oppose a return of said escape wheel, wherein said stopper cooperates with a plate forming part of said resonator and with the magnetic or electrostatic field potential ramps by at least one pole shoe forming part of said stopper and arranged to move in a field corresponding to said magnetic or electrostatic field potential ramps, and wherein each ramp of the magnetic or electrostatic field potential ramps on a track of said succession of tracks is extended by a magnetic or electrostatic field barrier, wherein, immediately following each ramp, said barrier has a first zone of rapid potential growth, a gradient of which is higher than a maximum gradient of each ramp, wherein said first zone is followed by a second zone of maximum potential, where a concavity of a potential curve is inverted in relation to said first zone, and said second zone is immediately followed by a third zone of decline in potential where the concavity of the potential curve is inverted in relation to said second zone and said third zone ends at a fourth zone of minimum potential. 2. An escapement mechanism according to claim 1 , wherein said non-return device comprises at least one compression pawl comprising a first elastic connection with a first fixed part of said escapement mechanism outside said stopper and said escape wheel, and said at least one compression pawl cooperates with at least one toothing fixed in pivoting motion to said escape wheel, and wherein said at least one toothing is a wolf tooth toothing arrangement that permits advance of said escape wheel by sliding on said compression pawl and opposing recoil of said escape wheel by subjecting said at least one compression pawl to a buckling force when said escape wheel has a tendency to recoil. 3. The escapement mechanism according to claim 2 , wherein said at least one toothing periodically, alternating with zones fitted with teeth, comprises zones devoid of teeth to minimise losses when a non-return function is not necessary, when said pole shoe of said stopper cooperates with a zone of zero potential of said track or a zone of low potential of each ramp. 4. The escapement mechanism according to claim 2 , wherein said at least one toothing comprises at least one tooth on a useful zone. 5. The escapement mechanism according to claim 2 , wherein said at least one toothing comprises, on zones fitted with teeth, at least twenty times more teeth than said escape wheel has pitch, wherein each said pitch corresponds to a course between two successive tipping movements of said stopper. 6. The escapement mechanism according to claim 1 , wherein said at least one pole shoe of said stopper comprises either a single pole shoe arranged to cooperate successively and alternately with two tracks of said succession of tracks which are a first track and a second track, or two pole shoes, which are a first pole shoe and a second pole shoe arranged to cooperate successively and alternately with one track of said succession of tracks, which is a single track, wherein said escape wheel comprises, arranged in periodic manner according to a pitch, a plurality of useful zones, each located between a given zone of minimum potential of a given track of said succession of tracks and a zone of maximum potential of a track of said succession of tracks immediately following said zone of minimum potential of said given track, and wherein each crossing of said zone of maximum potential of said track by said at least one pole shoe corresponds to a tipping of said stopper. 7. The escapement mechanism according to claim 6 , wherein each useful zone is located between a fourth zone of minimum potential of said given track and a second zone of maximum potential of said given track immediately following said fourth zone of minimum potential of said given track, and wherein each crossing of said second zone of maximum potential of said given track by said at least one pole shoe corresponds to a tipping of said stopper. 8. The escapement mechanism according to claim 1 , wherein said magnetic or electrostatic field potential ramps arranged on said tracks each comprise a potential barrier at their maximum field potential end that has a tendency to oppose crossing of the potential barrier by said pole shoe of said stopper. 9. The escapement mechanism according to claim 1 , wherein on said track each said first zone immediately follows said preceding fourth zone. 10. The escapement mechanism according to claim 1 , wherein on said escape wheel each said first zone immediately follows said preceding fourth zone. 11. The escapement mechanism according to claim 1 , wherein said non-return device is arranged to minimise bounces of said escape wheel on at least one part of an angular course of said escape wheel. 12. The escapement mechanism according to claim 2 , wherein said non-return device comprises at least one traction pawl comprising a second elastic connection with a second fixed part of said escapement mechanism outside said stopper and said escape wheel, wherein said at least one traction pawl cooperates with said at least one toothing and is arranged to operate in traction mode and exert a torque on said escape wheel that tends to cause it to advance when said escape wheel has a tendency to recoil, wherein said traction pawl is formed either by said compression pawl or by a separate pawl. 13. A timepiece movement comprising at least one escapement mechanism according to claim 1 . 14. A watch comprising at least one escapement mechanism according to claim 1 .