We describe the design and test of a flexure z-stage with 12.5 mm height and 4 m travel to be coupled with a commercial xy stage. The geometrical model was simulated by means of finite element calculations which have provided an accurate description of the stage dynamics also taking into account the effect of a load to get a resonant frequency of 8kHz with a 10 g load. The tests of the complete xyz stage were performed in intermittent-contact mode on a sample having periodic features (1.6 10^-6 m period, 100 mm height) and with additional loads to increase the mass up to 20 g. The results show that for a 10 g load the surface profiles are well reproduced up to 60 10^-6 m/s while with a 20 g sample the speed is reduced to 40 10^-6 m/s
Note: Design and test of a compact flexure z-stage for atomic force microscopy
BRACCO, GIANANGELO;PAGNINI, LUISA
2010-01-01
Abstract
We describe the design and test of a flexure z-stage with 12.5 mm height and 4 m travel to be coupled with a commercial xy stage. The geometrical model was simulated by means of finite element calculations which have provided an accurate description of the stage dynamics also taking into account the effect of a load to get a resonant frequency of 8kHz with a 10 g load. The tests of the complete xyz stage were performed in intermittent-contact mode on a sample having periodic features (1.6 10^-6 m period, 100 mm height) and with additional loads to increase the mass up to 20 g. The results show that for a 10 g load the surface profiles are well reproduced up to 60 10^-6 m/s while with a 20 g sample the speed is reduced to 40 10^-6 m/sI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.