Abstract: A Neural Circuit Probe (NCP) combines a multi-electrode array (MEA) with an automated local probe, wherein the probe is positioned to interact with one or more cells, such as neurons of a neural circuit, grown on or about one or more electrodes of the multi-electrode array. The probe may interact with the cells by electrically recording signals from the multi-electrode array that are assigned to a specific one of the cells. The probe may interact with the cells by locally delivering chemicals to the cells, which transiently and reversibly modulate the electrical behavior of the cells. The probe may interact with the cells by harvesting the cells using a pipette, so that the harvested cells can be sequenced.

Abstract: An actuator includes a piston, a relief valve in fluid communication with the piston, and an input shaft for moving fluid in a chamber near the piston. The relief valve determines an amount of force needed to move the piston to compress a fluid. The actuator also includes at least one check valve which allows the input shaft to move back to an equilibrium position with a much lower force than a force needed to compress the fluid. The actuator is a passive device that can be used to prevent motion or isolate a base. The actuator is also incorporated in tuned mass damping systems.

Abstract: The field of the invention generally relates to probes, related devices and methods for measuring material properties. In an embodiment, the present invention provides a test probe for use in a reference point indentation device. The test probe has an end proximal to a tip and an end distal to the tip. The distal end of the test probe has a self-centering mate comprising a countersink of about 90 degrees to about 100 degrees to a depth of between 0.010 in. and 0.035 in.

Abstract: A Neural Circuit Probe (NCP) combines a multi-electrode array (MEA) with an automated local probe, wherein the probe is positioned to interact with one or more cells, such as neurons of a neural circuit, grown on or about one or more electrodes of the multi-electrode array. The probe may interact with the cells by electrically recording signals from the multi-electrode array that are assigned to a specific one of the cells. The probe may interact with the cells by locally delivering chemicals to the cells, which transiently and reversibly modulate the electrical behavior of the cells. The probe may interact with the cells by harvesting the cells using a pipette, so that the harvested cells can be sequenced.

Abstract: The field of the invention generally relates to probes, related devices and methods for measuring material properties. In an embodiment, the present invention provides a test probe for use in a reference point indentation device. The test probe has an end proximal to a tip and an end distal to the tip. The distal end of the test probe has a self-centering mate comprising a countersink of about 90 degrees to about 100 degrees to a depth of between 0.010 in. and 0.035 in.

Abstract: Methods and instruments for assessing bone, for example fracture risk, in a subject in which a test probe is inserted through the skin of the subject so that the test probe contacts the subject's bone and the resistance of the test bone to microscopic fracture by the test probe is determined. Macroscopic bone fracture risk is assessed by measuring the resistance of the bone to microscopic fractures caused by the test probe. The microscopic fractures are so small that they pose negligible health risks. The instrument may also be useful in characterizing other materials, especially if it is necessary to penetrate a layer to get to the material to be characterized.

Abstract: Methods and instruments for assessing bone, for example fracture risk, in a subject in which a test probe is inserted through the skin of the subject so that the test probe contacts the subject's bone and the resistance of the test bone to microscopic fracture by the test probe is determined. Macroscopic bone fracture risk is assessed by measuring the resistance of the bone to microscopic fractures caused by the test probe. The microscopic fractures are so small that they pose negligible health risks. The instrument may also be useful in characterizing other materials, especially if it is necessary to penetrate a layer to get to the material to be characterized.

Abstract: A scanned-stylus atomic force microscope (AFM) employing the optical lever technique, and method of operating the same. The AFM of the invention includes a light source and a scanned optical assembly which guides light emitted from the light source onto a point on a cantilever during scanning thereof. A moving light beam is thus created which will automatically track the movement of the cantilever during scanning. The invention also allows the light beam to be used to measure, calibrate or correct the motion of the scanning mechanism, and further allows viewing of the sample and cantilever using an optical microscope.

Abstract: Methods and instruments for assessing bone, for example fracture risk, in a subject in which a test probe is inserted through the skin of the subject so that the test probe contacts the subject's bone and the resistance of the test bone to microscopic fracture by the test probe is determined. Macroscopic bone fracture risk is assessed by measuring the resistance of the bone to microscopic fractures caused by the test probe. The microscopic fractures are so small that they pose negligible health risks. The instrument may also be useful in characterizing other materials, especially if it is necessary to penetrate a layer to get to the material to be characterized.

Abstract: Methods and instruments for assessing bone, for example fracture risk, in a subject in which a test probe is inserted through the skin of the subject so that the test probe contacts the subject's bone and the resistance of the test bone to microscopic fracture by the test probe is determined. Macroscopic bone fracture risk is assessed by measuring the resistance of the bone to microscopic fractures caused by the test probe. The microscopic fractures are so small that they pose negligible health risks. The instrument may also be useful in characterizing other materials, especially if it is necessary to penetrate a layer to get to the material to be characterized.

Abstract: A scanner for probe microscopy that avoids low resonance frequencies and accounts better for piezo nonlinearities. The x, y and z axes of a linear stack scanner are partially decoupled from each other while maintaining all mechanical joints stiff in the direction of actuation. The scanning probe microscope comprises a probe, a housing, at least two actuators, each coupled to the housing, and a support coupled to the housing and to at least a first of the actuators at a position spaced from the point at which the actuator is coupled to the housing. The support constrains the motion of the first actuator along a first axis while permitting translation along a second axis. The actuators are preferably orthogonally arranged linear stacks of flat piezos, preferably in push-pull configuration. The support can take different forms in different embodiments of the invention.

Abstract: Method and instrument for characterizing a material using a test probe constructed for insertion into the material, optionally with a reference probe constructed either for insertion into the material or to contact another material without insertion. The test probe is inserted at least a microdistance into the material (i) together with insertion of the reference probe into the material, (ii) with the reference probe contacting another material, or (iii) without a reference probe, and then withdrawn. The material property is determined by measuring an interaction of the test probe with the material, which may be related to the insertion of the test probe into the material, the movement of the test probe in the material, and/or the withdrawal of the test probe from the material.

Abstract: A scanner for probe microscopy that avoids low resonance frequencies and accounts better for piezo nonlinearities. The x, y and z axes of a linear stack scanner are partially decoupled from each other while maintaining all mechanical joints stiff in the direction of actuation. The scanning probe microscope comprises a probe, a housing, at least two actuators, each coupled to the housing, and a support coupled to the housing and to at least a first of the actuators at a position spaced from the point at which the actuator is coupled to the housing. The support constrains the motion of the first actuator along a first axis while permitting translation along a second axis. The actuators are preferably orthogonally arranged linear stacks of flat piezos, preferably in push-pull configuration. The support can take different forms in different embodiments of the invention.

Abstract: An improvement for atomic force microscopes, more generally for light beam detecting systems, but also in part applicable to scanning probe microscopes, providing significant novel features and advantages. Particular features include using different objective lens regions for incident and reflected light, a flexure that allows three dimensional motion of the optics block, forming the housing and optics block of a composite material or ceramic, arranging the components so that the beam never hits a flat surface at normal incidence, and providing a resonant frequency of cantilever vibration greater than 850 HZ between the cantilever and sample and the cantilever and focusing lens.

Abstract: Self-healing copolymeric materials comprising a plurality of intermediate strength crosslinks are provided. The copolymeric materials comprise a silicon component and a plurality of crosslinking components. The crosslinking components comprise a polymeric structure forming a structure held together by ionic and/or hydrogen bonding with a net intermediate strength. The plurality of intermediate strength crosslinks provide toughness to the material, and allow for rehealing by allowing reforming of the crosslinks after a disruptive stress incidence. The material is also suited for recasting, and can be used as an active matrix by incorporating additional substances. Articles of manufacture incorporating such materials, and methods of recasting such materials are also provided.

Abstract: Self-healing copolymeric materials comprising a plurality of intermediate strength crosslinks are provided. The copolymeric materials comprise a silicon component and a plurality of crosslinking components. The crosslinking components comprise a polymeric structure forming a structure held together by ionic and/or hydrogen bonding with a net intermediate strength. The plurality of intermediate strength crosslinks provide toughness to the material, and allow for rehealing by allowing reforming of the crosslinks after a disruptive stress incidence. The material is also suited for recasting, and can be used as an active matrix by incorporating additional substances. Articles of manufacture incorporating such materials, and methods of recasting such materials are also provided.

Abstract: A high sensitivity beam deflection sensing optical device, such as an atomic force microscope, including one or more of the following: specified means in the path of the incident beam for adjusting the size and/or power of the incident beam spot, means for moving the incident beam spot with movement of the object whereby to maintain the position of the spot on the object, and means for increasing the signal to noise ratio of the optical detector in which adjusted gains are applied to different segments of the optical detector.

Abstract: An improvement for atomic force microscopes, more generally for light beam detecting systems, but also in part applicable to scanning probe microscopes, providing significant novel features and advantages. Particular features include using different objective lens regions for incident and reflected light, a flexure that allows three dimensional motion of the optics block, forming the housing and optics block of a composite material or ceramic, arranging the components so that the beam never hits a flat surface at normal incidence, providing a resonant frequency of cantilever vibration greater than 850 HZ between the cantilever and sample and the cantilever and focusing lens, and focusing the incident beam to a 5 &mgr;m or less spot, preferably to a 3 &mgr;m or less spot.

Abstract: A high sensitivity beam deflection sensing optical device, such as an atomic force microscope, including one or more of the following: specified means in the path of the incident beam for adjusting the size and/or power of the incident beam spot, means for moving the incident beam spot with movement of the object whereby to maintain the position of the spot on the object, and means for increasing the signal to noise ratio of the optical detector in which adjusted gains are applied to different segments of the optical detector.

Abstract: A high sensitivity beam deflection sensing optical device, such as an atomic force microscope, including one or more of the following: specified means in the path of the incident beam for adjusting the size and/or power of the incident beam spot, means for moving the incident beam spot with movement of the object whereby to maintain the position of the spot on the object, and means for increasing the signal to noise ratio of the optical detector in which adjusted gains are applied to different segments of the optical detector.