Patents by Inventor Andrew Humphris
Andrew Humphris has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9784760Abstract: A scanning probe microscope system. A sample stage is provided along with a microscope arranged to collect data with a probe carried by the microscope from a sample carried by the sample stage. A probe/sample exchange mechanism is arranged to exchange the probe carried by the microscope with a new probe, and is also arranged to exchange the sample carried by the sample stage with a new sample.Type: GrantFiled: August 6, 2014Date of Patent: October 10, 2017Assignee: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Patent number: 9739798Abstract: A method of detecting the positions of a plurality of probes. An input beam is directed into an optical device and transformed into a plurality of output beamlets which are not parallel with each other. Each output beamlet is split into a sensing beamlet and an associated reference beamlet. Each of the sensing beamlets is directed onto an associated one of the probes with an objective lens to generate a reflected beamlet which is combined with its associated reference beamlet to generate an interferogram. Each interferogram is measured to determine the position of an associated one of the probes. A similar method is used to actuate a plurality of probes. A scanning motion is generated between the probes and the sample. An input beam is directed into an optical device and transformed into a plurality of actuation beamlets which are not parallel with each other.Type: GrantFiled: August 28, 2013Date of Patent: August 22, 2017Assignee: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Patent number: 9599636Abstract: A scanning probe microscope comprising: a signal generator providing a drive signal for an actuator to move a probe repeatedly towards and away from a sample. In response to the detection of an interaction of the probe with the sample the drive signal is modified to cause the probe to move away from the sample. The drive signal comprises an approach phase in which an intensity of the drive signal increases to a maximum value; and a retract phase in which the intensity of the drive signal reduces from the maximum value to a minimum value in response to the detection of the surface position. The intensity of the drive signal is held at the minimum value during the retract phase and then increased at the end of the retract phase. The duration of the retract phase is dependent on the maximum value in the approach phase.Type: GrantFiled: July 18, 2014Date of Patent: March 21, 2017Assignee: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Publication number: 20170074901Abstract: A probe actuation system has a detection system arranged to measure a position or angle of a probe to generate a detection signal. An illumination system is arranged to illuminate the probe. Varying the illumination of the probe causes the probe to deform which in turn causes the detection signal to vary. A probe controller is arranged to generate a desired value which varies with time. A feedback controller is arranged to vary the illumination of the probe according to the detection signal and the desired value so that the detection signal is driven towards the desired value. The probe controller receives as its inputs a detection signal and a desired value, but unlike conventional feedback systems this desired value varies with time. Such a time-varying desired value enables the probe to be driven so that it follows a trajectory with a predetermined speed. A position or angle of the probe is measured to generate the detection signal and the desired value represents a desired position or angle of the probe.Type: ApplicationFiled: February 27, 2015Publication date: March 16, 2017Inventor: Andrew HUMPHRIS
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Patent number: 9557347Abstract: A scanning probe microscope comprising a probe that is mechanically responsive to a driving force. A signal generator provides a drive signal to an actuator that generates the driving force, the drive signal being such as to cause the actuator to move the probe repeatedly towards and away from a sample. A detection system is arranged to output a height signal indicative of a path difference between light reflected from the probe and a height reference beam. Image processing apparatus is arranged to use the height signal to form an image of the sample. Signal processing apparatus is arranged to monitor the probe as the probe approaches a sample and to detect a surface position at which the probe interacts with the sample. In response to detection of the surface position, the signal processing apparatus prompts the signal generator to modify the drive signal.Type: GrantFiled: January 31, 2012Date of Patent: January 31, 2017Assignee: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Publication number: 20170016932Abstract: A probe system comprising a probe with first and second arms and a probe tip carried by the first and second arms. An illumination system is arranged to deform the probe by illuminating the first arm at a first actuation location and the second arm at a second actuation location each with a respective illumination power. An actuation controller is arranged to independently control the illumination power at each actuation location in order to control the height and tilt angle of the probe and thus height and lateral position of the tip. The first and second arms are mirror images of each other on opposite sides of a plane of symmetry passing through the probe tip. A detection system is provided which not only measures a height of the probe tip to generate a height signal, but also measures a tilt angle of the probe to generate a tilt signal from which the lateral position of the tip can be determined.Type: ApplicationFiled: February 27, 2015Publication date: January 19, 2017Inventor: Andrew HUMPHRIS
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Patent number: 9410982Abstract: Various methods of driving a probe of a scanning probe microscope are disclosed. One set of methods distribute the energy of a radiation beam over a wide area of the probe by either scanning the beam or increasing its illumination area. Another method changes the intensity profile of the radiation beam with a diffractive optical element, enabling a more uniform intensity profile across the width of the illumination. Another method uses a diffractive optical element to change the circumferential shape of the radiation beam, and hence the shape of the area illuminated on the probe, in order to match the shape of the probe and hence distribute the energy over a wider area.Type: GrantFiled: July 30, 2013Date of Patent: August 9, 2016Assignee: INFINITESIMA LIMITEDInventors: Andrew Humphris, Bin Zhao
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Patent number: 9389243Abstract: A method of actuating a plurality of probes. Each probe may be made of two or more materials with different thermal expansion coefficients which are arranged such that when the probe is illuminated by an actuation beam it deforms to move the probe relative to a sample. Energy is delivered to the probes by sequentially illuminating them with an actuation beam via an objective lens in a series of scan sequences. Two or more of the probes are illuminated by the actuation beam in each scan sequence and the actuation beam enters the objective lens at a different angle to an optical axis of the objective lens for each probe which is illuminated in a scan sequence. The actuation beam is controlled so that different amounts of energy are delivered to at least two of the probes by the actuation beam during at least one of the scan sequences.Type: GrantFiled: August 28, 2013Date of Patent: July 12, 2016Assignee: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Publication number: 20160187376Abstract: A scanning probe microscope system. A sample stage is provided along with a microscope arranged to collect data with a probe carried by the microscope from a sample carried by the sample stage. A probe/sample exchange mechanism is arranged to exchange the probe carried by the microscope with a new probe, and is also arranged to exchange the sample carried by the sample stage with a new sample.Type: ApplicationFiled: August 6, 2014Publication date: June 30, 2016Inventor: Andrew HUMPHRIS
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Publication number: 20160154022Abstract: A scanning probe microscope comprising: a signal generator providing a drive signal for an actuator to move a probe repeatedly towards and away from a sample. In response to the detection of an interaction of the probe with the sample the drive signal is modified to cause the probe to move away from the sample. The drive signal comprises an approach phase in which an intensity of the drive signal increases to a maximum value; and a retract phase in which the intensity of the drive signal reduces from the maximum value to a minimum value in response to the detection of the surface position. The intensity of the drive signal is held at the minimum value during the retract phase and then increased at the end of the retract phase. The duration of the retract phase is dependent on the maximum value in the approach phase.Type: ApplicationFiled: July 18, 2014Publication date: June 2, 2016Inventor: Andrew HUMPHRIS
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Patent number: 9304144Abstract: A method of actuating a plurality of probes by delivering photothermal energy to the probes so that the probes are heated and deform relative to a sample. The photothermal energy is delivered to the probes by: directing an input beam into an optical device; transforming the input beam with the optical device into a plurality of actuation beamlets which are not parallel with each other; and scanning the actuation beamlets across the probes, optionally via an objective lens. A spacing between the actuation beamlets is different to a spacing between the probes so that only a subset (typically only one) of the actuation beamlets illuminates a probe at any instant. As the actuation beamlets scan across the probes the probes are illuminated in an illumination sequence. The actuation beamlets are controlled so that different amounts of photothermal energy are delivered to at least two of the probes during the illumination sequence.Type: GrantFiled: October 9, 2013Date of Patent: April 5, 2016Assignee: INFINITESIMA LIMITEDInventors: Andrew Humphris, Andrew Neil Farley
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Patent number: 9291641Abstract: A method of driving a probe of a scanning probe microscope. The intensities of first and second radiation beams are modulated; and the beams are directed simultaneously onto the probe whereby each beam heats the probe and causes the probe to deform, typically by the photothermal effect. The optical system is arranged to direct the centers of the beams onto different locations on the probe. This enables the location of each beam to be chosen to optimize its effect. A lens receives the first and second beams and focuses them onto the probe. A beam combiner is arranged to receive and combine the beams and direct the combined beams towards the probe.Type: GrantFiled: January 29, 2013Date of Patent: March 22, 2016Assignee: INFINITESIMA LIMITEDInventors: Andrew Humphris, Bin Zhao
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Patent number: 9222958Abstract: Apparatus for illuminating a probe of a probe microscope. A lens is arranged to receive a beam and focus it onto the probe. A scanning system varies over time the angle of incidence at which the beam enters the lens relative to its optical axis. The scanning system is typically arranged to move the beam so as to track movement of the probe, thereby maintaining the location on the probe at which the beam is focused. The scanning system may comprise a beam steering mirror which reflects the beam towards the lens; and a mirror actuator for rotating the beam steering mirror.Type: GrantFiled: January 29, 2013Date of Patent: December 29, 2015Assignee: INFINITESIMA LIMITEDInventors: Andrew Humphris, Bin Zhao
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Publication number: 20150301079Abstract: A method of performing a measurement routine on a probe, the probe comprising a cantilever extending from a support. An interferometer is operated to reflect a sensing beam with the cantilever thereby generating a reflected sensing beam and combine the reflected sensing beam with a reference beam to generate an interferogram. The interferometer generates a first interference measurement value at a first measurement time by measuring the interferogram and a second interference measurement value at a second measurement time by measuring the interferogram, The cantilever deforms to form a different shape between the measurement times. A change in height of the probe between the measurement times is estimated in accordance with a difference between the first and second interference measurement values, and corrected in accordance with the difference in shape of the cantilever between the measurement times.Type: ApplicationFiled: November 29, 2013Publication date: October 22, 2015Inventor: Andrew Humphris
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Publication number: 20150285836Abstract: A method of actuating a plurality of probes by delivering photothermal energy to the probes so that the probes are heated and deform relative to a sample. The photothermal energy is delivered to the probes by: directing an input beam into an optical device; transforming the input beam with the optical device into a plurality of actuation beamlets which are not parallel with each other; and scanning the actuation beamlets across the probes, optionally via an objective lens. A spacing between the actuation beamlets is different to a spacing between the probes so that only a subset (typically only one) of the actuation beamlets illuminates a probe at any instant. As the actuation beamlets scan across the probes the probes are illuminated in an illumination sequence. The actuation beamlets are controlled so that different amounts of photothermal energy are delivered to at least two of the probes during the illumination sequence.Type: ApplicationFiled: October 9, 2013Publication date: October 8, 2015Inventors: Andrew Humphris, Andrew Neil Farley
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Patent number: 9134340Abstract: A method of investigating a sample surface. A probe is brought into close proximity with a first sample and scanned across the first sample. A response of the probe to its interaction with the sample is monitored using a detection system and a first data set is collected indicative of said response. The probe and/or sample is tilted through a tilt angle. The probe is scanned across the first sample or across a second sample after the tilting step, and a response of the probe to its interaction with the scanned sample is monitored using a detection system and a second data set is collected indicative of said response. The method includes the additional step of analyzing the first data set prior to tilting the probe and/or sample in order to determine the tilt angle.Type: GrantFiled: October 4, 2012Date of Patent: September 15, 2015Assignee: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Publication number: 20150219685Abstract: A method of actuating a plurality of probes. Each probe may be made of two or more materials with different thermal expansion coefficients which are arranged such that when the probe is illuminated by an actuation beam it deforms to move the probe relative to a sample. Energy is delivered to the probes by sequentially illuminating them with an actuation beam via an objective lens in a series of scan sequences. Two or more of the probes are illuminated by the actuation beam in each scan sequence and the actuation beam enters the objective lens at a different angle to an optical axis of the objective lens for each probe which is illuminated in a scan sequence. The actuation beam is controlled so that different amounts of energy are delivered to at least two of the probes by the actuation beam during at least one of the scan sequences.Type: ApplicationFiled: August 28, 2013Publication date: August 6, 2015Applicant: INFINITESIMA LIMITEDInventor: Andrew Humphris
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Publication number: 20150219686Abstract: A method of detecting the positions of a plurality of probes. An input beam is directed into an optical device and transformed into a plurality of output beamlets which are not parallel with each other. Each output beamlet is split into a sensing beamlet and an associated reference beamlet. Each of the sensing beamlets is directed onto an associated one of the probes with an objective lens to generate a reflected beamlet which is combined with its associated reference beamlet to generate an interferogram. Each interferogram is measured to determine the position of an associated one of the probes. A similar method is used to actuate a plurality of probes. A scanning motion is generated between the probes and the sample. An input beam is directed into an optical device and transformed into a plurality of actuation beamlets which are not parallel with each other.Type: ApplicationFiled: August 28, 2013Publication date: August 6, 2015Inventor: Andrew Humphris
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Publication number: 20150219684Abstract: Various methods of driving a probe of a scanning probe microscope are disclosed. One set of methods distribute the energy of a radiation beam over a wide area of the probe by either scanning the beam or increasing its illumination area. Another method changes the intensity profile of the radiation beam with a diffractive optical element, enabling a more uniform intensity profile across the width of the illumination. Another method uses a diffractive optical element to change the circumferential shape of the radiation beam, and hence the shape of the area illuminated on the probe, in order to match the shape of the probe and hence distribute the energy over a wider area.Type: ApplicationFiled: July 30, 2013Publication date: August 6, 2015Inventors: Andrew Humphris, Bin Zhao
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Patent number: 9052340Abstract: A probe assembly for use with a scanning probe microscope includes a carrier supporting at least two probes mounted on a tilt stage arranged to tilt the carrier about an axis. The probes may be distributed on one or more surfaces. In use, the tilt stage operates either as a selection device, orienting a selected probe or surface towards a sample, and/or as an alignment tool, adjusting a planar array of probes such that they are better aligned with the sample. This offers the potential for automated exchange of probes, with increased speed and accuracy, during microscope operation.Type: GrantFiled: March 29, 2011Date of Patent: June 9, 2015Assignee: INFINITESIMA LTDInventor: Andrew Humphris