METHOD AND APPARATUS FOR MEASURING CANTILEVER DEFLECTION IN CONSTRAINED SPACES

摘要

Atomic Force Microscopes (AFMs) allow forces within systems under observation to be probed from the piconewton forces of a single covalent bond to the forces exerted by cells in the micronewton range. The pendulum geometry prevents the snap-to-contact problem afflicting soft cantilevers in AFMs which enable attonewton force sensitivity. However, the microscopic length scale studies of cellular/subcellular forces parallel to the imaging plane of an optical microscope requires high sensitivity force measurements at high sampling frequencies despite the difficulties of implementing the pendulum geometry from constraints imposed by the focused incoming/outgoing light interfering with the sample surface. Additionally measurement systems for biological tissue samples in vitro must satisfy complex physical constraints to provide access to the vertical cantilever. Embodiments of the invention address these geometrical restrictions by exploiting optical periscope approaches that further allows multiple probes to be deployed and multiple optical beams within each probe.