Abstract: The present invention provides for a method for characterization of pulse-width limiter outputs. A known clock signal is received. A pulse width of the received known clock signal is limited through a first pulse-width limiter to generate a first intermediate signal. The first intermediate signal is delayed by a known amount to generate a first delayed signal. The first intermediate signal is inverted to generate a first inverted signal. A pulse width of the first inverted signal is limited through a second pulse-width limiter to generate a second intermediate signal. The second intermediate signal is delayed by a known amount to generate a second delayed signal. A logic OR operation is performed on the first delayed signal and the second delayed signal to generate a clock out signal.

Abstract: A system manipulates molecules using a set of proximal probes such as those used in atomic force microscopes. An electrostatic pattern is placed on a set of proximal probes such that each proximal probe may exert an electrostatic force. A molecule is captured using those electrostatic forces, after which the molecule can be manipulated while the molecule remains captured by the proximal probes. The electrostatic pattern can be modified such that the molecule moves and/or rotates over the set of proximal probes while the molecule remains captured by the set of proximal probes. The electrostatic pattern can be used to bend or split the molecule while the molecule remains captured by the set of proximal probes, thereby allowing the system to engage the molecule in chemical reactions, e.g., to act as a synthetic catalyst or a synthetic enzyme.