Bruker Nano, Inc. Patent applications |
Patent application number | Title | Published |
20150247881 | Method and Apparatus to Compensate for Deflection Artifacts in an Atomic Force Microscope - A method of compensating for an artifact in data collected using a standard atomic force microscope (AFM) operating in an oscillating mode. The artifact is caused by deflection of the probe not related to actual probe-sample interaction and the method includes compensating for thermal induced bending of the probe of the AFM by measuring a DC component of the measured deflection. The DC component of deflection is identified by calibrating the optical deflection detection apparatus and monitoring movement of the mean deflection, thereby allowing the preferred embodiments to minimize the adverse effect due to the artifact. Notably, plotting the DC deflection profile yields a corresponding temperature profile of the sample. | 09-03-2015 |
20150226766 | APPARATUS AND METHOD FOR ATOMIC FORCE MICROSCOPY - An apparatus ( | 08-13-2015 |
20140289912 | Peakforce Photothermal-Based Detection of IR Nanoabsorption - An apparatus and method of performing photothermal chemical nanoidentification of a sample includes positioning a tip of a probe at a region of interest of the sample, with the tip-sample separation being less than about 10 nm. Then, IR electromagnetic energy having a selected frequency, ω, is directed towards the tip. Using PFT mode AFM operation, absorption of the energy at the region of interest is identified. Calorimetry may also be performed with the photothermal PFT system. | 09-25-2014 |
20140283229 | Method and Apparatus of Operating a Scanning Probe Microscope - An improved mode of AFM imaging (Peak Force Tapping (PFT) Mode) uses force as the feedback variable to reduce tip-sample interaction forces while maintaining scan speeds achievable by all existing AFM operating modes. Sample imaging and mechanical property mapping are achieved with improved resolution and high sample throughput, with the mode workable across varying environments, including gaseous, fluidic and vacuum. | 09-18-2014 |
20140283228 | Dual-Probe Scanning Probe Microscope - An apparatus and method of positioning a probe of an atomic force microscope (AFM) includes using a dual probe configuration in which two probes are fabricated with a single base, yet operate independently. Feedback control is based on interaction between the reference probe and surface, giving an indication of the location of the surface, with this control being modified based on the difference in tip heights of the two probes to allow the sensing probe to be positioned relative to the sample at a range less than 10 nm. | 09-18-2014 |
20140283227 | METHOD AND APPARATUS FOR ADAPTIVE TRACKING USING A SCANNING PROBE MICROSCOPE - Methods and apparatuses are described for adaptively tracking a feature of a sample using a scanning probe microscope. The adaptive technique provides an adaptive method for tracking the feature scan-to-scan despite actual or apparent changes in feature shape due, for example, to an evolving/transitioning state of the sample, and/or actual or apparent changing position due, for example, to movement of the sample and/or drift of the piezoelectric tube actuator. In a preferred embodiment, each scan may be processed line-by-line, or subpart-by-subpart, and may be analyzed either in real time or off-line. This processing technique improves speed, processing, reaction, and display times. | 09-18-2014 |
20140259234 | Method and Apparatus of Physical Property Measurement Using a Probe-Based Nano-Localized Light Source - An apparatus and method of performing physical property measurements on a sample with a probe-based metrology instrument employing a nano-confined light source is provided. In one embodiment, an SPM probe tip is configured to support an appropriate receiving element so as to provide a nano-localized light source that is able to efficiently and locally excite the sample on the nanoscale. Preferably, the separation between the tip apex and the sample during spectroscopic measurements is maintained at less than 10 nm, for example, using an AFM TR Mode control scheme. | 09-11-2014 |
20140223615 | Method and Apparatus of Operating a Scanning Probe Microscope - Methods and apparatuses are provided for automatically controlling and stabilizing aspects of a scanning probe microscope (SPM), such as an atomic force microscope (AFM), using Peak Force Tapping (PFT) Mode. In an embodiment, a controller automatically controls periodic motion of a probe relative to a sample in response to a substantially instantaneous force determined, and automatically controls a gain in a feedback loop. A gain control circuit automatically tunes a gain based on separation distances between a probe and a sample to facilitate stability. Accordingly, instability onset is quickly and accurately determined during scanning, thereby eliminating the need of expert user tuning of gains during operation. | 08-07-2014 |
20130125269 | Method And Apparatus Of Tuning A Scanning Probe Microscope - An apparatus and method of automatically determining an operating frequency of a scanning probe microscope such as an atomic force microscope (AFM) is shown. The operating frequency is not selected based on a peak of the amplitude response of the probe when swept over a range of frequencies; rather, the operating frequency is selected using only peak data corresponding to a TIDPS curve. | 05-16-2013 |
20130046496 | PREDICTING LED PARAMETERS FROM ELECTROLUMINESCENT SEMICONDUCTOR WAFER TESTING - A diode model and conductive-probe measurements taken at the wafer lever are used to predict the characterization parameters of a semiconductor device manufactured from the wafer. A current-voltage curve (I-V) model that expresses a current-voltage relationship as a function of resistance, ideality factor, and reverse saturation current is fitted to a number of conductive-probe measurement data. The current-voltage curve (I-V | 02-21-2013 |
20130043875 | TESTING OF ELECTROLUMINESCENT SEMICONDUCTOR WAFERS - Forward voltage drift in a probe system for the characterization of a light-emitting wafer is virtually eliminated by directing compressed air to the probe so as to ensure that the exact same temperature conditions exist during repeated measurements of the wafer. In one embodiment of the invention, an air flow at room temperature is used, either continuously or intermittently. In another embodiment, the temperature of the probe is controlled by flowing a liquid or a gas through micro-channels built into the probe. In yet another embodiment, the probe is connected to a solid-state Peltier cell that is computer-controlled to maintain the probe's temperature at a predetermined set-point. A temperature-controlled chamber or a thermal reservoir enclosing the probe could be used as well. The results obtained showed remarkable repeatability. | 02-21-2013 |
20120297510 | Cleaning Station for Atomic Force Microscope - A cleaning station for thoroughly cleaning the AFM component surfaces that are exposed to fluid during imaging of a sample supported in a fluid medium is disclosed. The cleaning station is designed to selectively expose the AFM component surfaces to cleansing agents, such as soap/detergent and water, plasma cleaning, etc., and cleaning tools, such as brushes, while protecting fluid sensitive components from exposure to the cleansing agents. The preferred embodiments are particularly beneficial for scanners in which the fluid sensitive components (actuator, sensor, connector, etc.) are integrated in the same device to which the cantilever holder is attached. | 11-22-2012 |
20120257216 | INTERFEROMETRIC MEASUREMENT OF NON-HOMOGENEOUS MULTI-MATERIAL SURFACES - Correction factors for the ALR and PTR parameters of magnetic-head sliders are determined by calculating an effective reflectivity and a corresponding PCOR at each pixel of the air-bearing surface. The absolute value of reflectivity at each pixel of the AlTiC air-bearing surface is obtained from an empirical equation relating it to modulation. The ratio of Al | 10-11-2012 |
20120257215 | INTERFEROMETRIC MEASUREMENT OF NON-HOMOGENEOUS MULTI-MATERIAL SURFACES - Correction factors for the ALR and PTR parameters of magnetic-head sliders are determined by calculating an effective reflectivity and a corresponding PCOR at each pixel of the air-bearing surface. The absolute value of reflectivity at each pixel of the AlTiC air-bearing surface is obtained from an empirical equation relating it to modulation. The ratio of Al | 10-11-2012 |
20120204295 | FAST-SCANNING SPM SCANNER AND METHOD OF OPERATING SAME - A high-bandwidth SPM tip scanner includes an objective that is vertically movable within the scan head to increase the depth of focus for the sensing light beam. Movable optics also are preferably provided to permit targeting of the sensing light beam on the SPM's probe and to permit the sensing light beam to track the probe during scanning. The targeting and tracking permit the impingement of a small sensing light beam spot on the probe under direct visual inspection of focused illumination beam of an optical microscope integrated into the SPM and, as a result, permits the use of a relatively small cantilever with a commensurately small resonant frequency. Images can be scanned on large samples having a largest dimension exceeding 7 mm with a resolution of less than 1 Angstrom and while scanning at rates exceeding 30 Hz. | 08-09-2012 |
20120131702 | Method and Apparatus of Using Peak Force Tapping Mode to Measure Physical Properties of a Sample - An improved mode of AFM imaging (Peak Force Tapping (PFT) Mode) uses force as the feedback variable to reduce tip-sample interaction forces while maintaining scan speeds achievable by all existing AFM operating modes. Sample imaging and mechanical property mapping are achieved with improved resolution and high sample throughput, with the mode being workable across varying environments, including gaseous, fluidic and vacuum. Ease of use is facilitated by eliminating the need for an expert user to monitor imaging. | 05-24-2012 |
20120105864 | OPTICAL MEASUREMENT OF LEAD ANGLE OF GROOVE IN MANUFACTURED PART - A portion of the surface of a cylindrical part with a machined groove is mapped with an optical profilometer and the height map is fitted to a virtual cylindrical configuration that best fits the data. Two-dimensional Fourier Transfer analysis of the map data is advantageously used to find the orientation of the groove on the part. The orientation of the groove is then compared to the longitudinal axis of such virtual cylinder to calculate the groove's lead angle. | 05-03-2012 |
20110167524 | METHOD AND APPARATUS OF OPERATING A SCANNING PROBE MICROSCOPE - An improved mode of AFM imaging (Peak Force Tapping (PFT) Mode) uses force as the feedback variable to reduce tip-sample interaction forces while maintaining scan speeds achievable by all existing AFM operating modes. Sample imaging and mechanical property mapping are achieved with improved resolution and high sample throughput, with the mode being workable across varying environments, including gaseous, fluidic and vacuum. Ease of use is facilitated by eliminating the need for an expert user to monitor imaging. | 07-07-2011 |
20110107471 | SCANNING PROBE MICROSCOPE HAVING SUPPORT STAGE INCORPORATING A KINEMATIC FLEXURE ARRANGEMENT - A scanning probe microscope (SPM) has a piezoelectric actuator-based tube scanner to which a probe is attached and which is moveable in three planes by the application of a voltage to the piezoelectric tube. A set of flexures flex with the displacement of the tube and strain gauges attached to the flexures measure the flex of the flexures to provide feedback as to the displacement of the tube during the scanning of an object. The strain gauges and flexures form a kinematic sensing frame or arrangement in which a single constraint is provided for each degree of freedom and in which the constraints are at least substantially orthogonal to one another. | 05-05-2011 |