Patent Number: 
Section: claims

1. A positioner comprising:a platform and a frame comprising an inertial actuator, said frame having a surface disposed in frictional contact with a surface of said platform andwherein said actuator is capable of positioning said platform andsaid frame with respect to each other; andwherein a plurality of bearing means is disposed between said frame and said platform and is capable of rolling; andwherein said plurality of bearing means serves to exert a loading force on said frictional contact. 2. A positioner of claim 1 wherein said inertial actuator is a piezoelectric actuator. 3. A positioner of claim 1 wherein said inertial actuator is a magnetostrictive actuator. 4. A positioner of claim 1 wherein said plurality of rollers is disposed in a groove or a plurality thereof formed in one or more ofsaid platform to said frame to restrict motion of said platform with respect to said frame to a single axis. 5. A positioner of claim 1 wherein the surface of said frame disposed in contact with the said platform is a surface of said actuator. 6. A positioner of claim 1 wherein said rollers are selected from the group consisting of: spherical balls, cylinders. 7. A positioner of claim 1 further comprising a spring member effecting said loading force. 8. A positioner of claim 1 wherein said platform has a surface whereon an object being positioned is disposed, said surface is substantially parallel to the surfaces disposed in said frictional contact. 9. A three-axis positioner comprising a stack of three positioners defined in claim 1. 10. A positioner as defined in claim 1 wherein said frame comprises a base and carrier; said actuator being disposed between said base and carrier and fixedly attached to each to cause relative movement between said base and carrier along an axis when activated; said carrier including elements acting on said bearing means to create said loading force. 11. A positioner of claim 1 wherein said frame further comprises a carrier having a surface rigidly attached to said actuator and wherein said surface of the frame disposed in frictional contact with said platform is a surface of said carrier. 12. A probing station comprising a positioner according to claim 1 carrying a probe capable of characterizing a device, wherein said probe-consisting of: a scanning microscopic probe, an optical probe, a tip of an atomic force microscope, a nano indenter, micro indenter, a micro machined scanning electron microscope, a probe making electrical connection to said device, a capacitive probe. 13. A positioner of claim 11 where said frame includes a base, with said actuator rigidly attached to said base, with said carrier rigidly attached to the actuator, and the surface of frictional contact between said carrier and said platform is substantially planar;and wherein one or more of: a base, a platform, and a carrier comprises a plurality of containing surfaces;and wherein a plurality of rollers capable of rolling along a direction of motion effected by said actuator is disposed between said containing surfaces, said plurality providing a loading force on said frictional contact. 14. The positioner of claim 13 having a height measured in the direction normal to said substantially planar surface of frictional contact between 0.1 and 0.75 of the square root of the product of the length and width of said frame. 15. A positioner of claim 13 with one or more of said containing surfaces disposed at an acute angle with respect to said substantially planar surface of frictional contact. 16. A positioner of claim 13 wherein the cross-section of the platform in the plane perpendicular to its direction of motion is substantially trapezoidal. 17. A positioner of claim 13 having the lowest mechanical resonance frequency between 30 kHz and 100 kHz. 18. A positioner of claim 13 having the lowest mechanical resonant frequency between 5 kHz and 30 kHz. 19. A positioner of claim 13 having the maximum achievable velocity between 0.1 mm/sec and 10 mm/sec. 20. A positioner of claim 13 wherein said actuator comprises one or more stack of piezoelectric elements. 21. A positioner of claim 13 wherein said base is the platform of another inertial positioner according to claim 1. 22. A positioner of claim 11 wherein said frame further comprises a base having a top surface, and wherein said carrier has a surface comprising a substantially cylindrical portion, and wherein said actuator comprises a stack of piezo elements;and wherein surface of said stack is connected to said base and another surface of said stack to said carrier;and wherein said platform has a surface comprising a substantially cylindrical portion, disposed in frictional contact with the carrier along substantially cylindrical portion of both parts;and said platform and said carrier comprise a plurality of containing surfaces;and at least 2 rollers that put a loading force on said frictional contact and are capable of rolling along the direction of motion effected by said actuator are disposed between said containing surfaces. 23. A positioner of claim 22 wherein said platform is inserted into said carrier. 24. A positioner of claim 22 wherein said carrier is inserted into said platform. 25. A positioner of claim 22 wherein said base is the platform of another inertial positioner according to claim 1. 26. A positioner of claim 22 having the height measured in the direction perpendicular to said base between 0.1 and 1.5 of the square root of the product of length and width of said positioner. 27. A positioner of claim 22 with the lowest resonant frequency in the range between 30 kHz and 100 kHz. 28. A positioner of claim 11 where said carrier comprises a part fixedly attached to said actuator to be displaced by said actuator relative to said base; said carrier having a surface which is in frictional contact with the platform to chase low rate movement of the platform and carrier together; a plurality of bearing means between said platform and carrier to produce a loading force on said frictional contact but allow rolling along a direction of motion effected by said actuator. 29. A three-axis inertial positioner comprising:a first positioner as set forth in claim 1, the three-axis inertial positioner further comprising:a second actuator affixed to said first platform, a second carrier, and a second platform wherein said actuator is capable of positioning said second platform with respect to said first platform and wherein said second carrier is in frictional contact with said second platform along a substantially planar interface; further comprising:a third actuator affixed to second platform, a third carrier, and a third platform wherein said third actuator is capable of positioning said third platform with respect to said second platform and wherein said third carrier is in frictional contact with said third platform along a common interface having a substantially cylindrical platform. 30. An inertial multi-axis positioner with a coordinate sensing instrument comprising:a stack of single-axis inertial positioners having a first positioner comprising a base and a last positioner comprising a movable platform,said inertial multi-axis positioner further comprising:a position-sensing photodetector affixed to said platform of the last positioner, anda fiber interferometer comprising a fiber from which light is emanating and impinging on said photodetector,wherein an end of said fiber is fixed with respect to the base of said first positioner. 31. An inertial multi-axis positioner of claim 30 wherein said light propagating between said fiber and said photodetector is substantially enclosed within said multi-axis positioner.