Abstract

Crucial to the success of devices such as the scanning tunnelling microscope is the availability of translation mechanisms of very high precision. Elastic design is a natural approach to this problem and here one family of such devices, mechanisms cut from a monolith and using 'web hinges', is examined in detail. Simple design rules, derived in part from finite-element analysis, are given and manufacturing tolerances considered. It is demonstrated that the drive system can cause significant parasitic motion even in very stiff systems and so a non-contact force transducer utilising a solenoid and permanent magnet is investigated. Experimental investigation confirms that even with very routine, low-cost manufacturing methods the combination of these devices can produce 'slideways' with subnanometer out-of-plane inaccuracies.