Patents by Inventor Jeremy Rowlette

Jeremy Rowlette 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).

  • Patent number: 9606002
    Abstract: Spectrally analyzing an unknown sample (10A) includes (i) providing a spatially homogeneous region (10B) of the unknown sample (10A); (ii) directing a plurality of interrogation beams (16) at the spatially homogeneous region (10B) with a laser source (14), (iii) acquiring a separate output image (245) while the unknown sample (10A) is illuminated by each of the interrogation beams (16) with an image sensor (26A); and (iv) analyzing less than fifty output images (245) to analyze whether a characteristic is present in the unknown sample (10A) with a control system (28) that includes a processor. Each of the interrogation beams (16) is nominally monochromatic and has a different interrogation wavelength that is in the mid-infrared spectral range.
    Type: Grant
    Filed: July 10, 2015
    Date of Patent: March 28, 2017
    Assignee: DAYLIGHT SOLUTIONS, INC.
    Inventors: Benjamin Bird, Miles James Weida, Jeremy Rowlette
  • Publication number: 20170082846
    Abstract: An imaging microscope for spectrally analyzing a sample includes (i) a laser source that generates an interrogation beam; (ii) an attenuated total reflection assembly that includes an ATR crystal and a sample holder that holds the sample in intimate contact with the ATR crystal; (iii) an objective lens assembly that collects a reflected beam and focuses the reflected beam; and (iv) a two dimensional image sensor that receives the focused, reflected beam and captures two dimensional image information that is used to generate an image of the sample, the image sensor being operable in the mid-infrared range.
    Type: Application
    Filed: September 20, 2016
    Publication date: March 23, 2017
    Inventors: Jeremy Rowlette, Eric Kim
  • Publication number: 20160209271
    Abstract: A spectral imaging device (12) includes an image sensor (28), an illumination source (14), a refractive, optical element (24A), a mover assembly (24C) (29), and a control system (30). The image sensor (28) acquires data to construct a two-dimensional spectral image (13A) during a data acquisition time (346). The illumination source (14) generates an illumination beam (16) that illuminates the sample (10) to create a modified beam (16I) that follow a beam path (16B) from the sample (10) to the image sensor (28). The refractive, optical element (24A) is spaced apart a separation distance (42) from the sample (10) along the beam path (16B). During the data acquisition time (346), the control system (30) controls the illumination source (14) to generate the illumination beam (16), controls the mover assembly (29) (24C) to modulate the separation distance (42), and controls the image sensor (28) to capture the data.
    Type: Application
    Filed: March 25, 2016
    Publication date: July 21, 2016
    Inventors: Jeremy Rowlette, Edeline Fotheringham, William Chapman, Miles Weida, David Arnone
  • Publication number: 20160169747
    Abstract: An assembly (12) for rapid thermal data acquisition of a sample (10) includes a laser source (14), a light sensing device (26), and a control system (28). The laser source (14) emits a laser beam (16) that is directed at the sample (10), the laser beam (16) including a plurality of pulses (233). The light sensing device (26) senses mid-infrared light from the sample (10), the light sensing device (26) including a pixel array (348). The control system (28) controls the light sensing device (26) to capture a plurality of sequential readouts (402) from the pixel array (348) with a substantially steady periodic readout acquisition rate 405. The control system (28) can generate a spectral cube (13) using information from the readouts (402).
    Type: Application
    Filed: December 11, 2015
    Publication date: June 16, 2016
    Inventors: Miles James Weida, Justin Kane, Daniel Forster, Jeremy Rowlette
  • Publication number: 20160018628
    Abstract: A mid-infrared objective lens assembly (10) includes a plurality of spaced apart, refractive lens elements (20) that operate in the mid-infrared spectral range, the plurality of lens elements (20) including an aplanatic first lens element (26) that is closest to an object (14) to be observed. The first lens element (26) has a forward surface (36) that faces the object (14) and a rearward surface (38) that faces away from the object (14). The forward surface (36) can have a radius of curvature that is negative.
    Type: Application
    Filed: April 11, 2014
    Publication date: January 21, 2016
    Applicant: DAYLIGHT SOLUTIONS INC.
    Inventor: Jeremy Rowlette
  • Publication number: 20150323384
    Abstract: Spectrally analyzing an unknown sample (10A) includes (i) providing a spatially homogeneous region (10B) of the unknown sample (10A); (ii) directing a plurality of interrogation beams (16) at the spatially homogeneous region (10B) with a laser source (14), (iii) acquiring a separate output image (245) while the unknown sample (10A) is illuminated by each of the interrogation beams (16) with an image sensor (26A); and (iv) analyzing less than fifty output images (245) to analyze whether a characteristic is present in the unknown sample (10A) with a control system (28) that includes a processor. Each of the interrogation beams (16) is nominally monochromatic and has a different interrogation wavelength that is in the mid-infrared spectral range.
    Type: Application
    Filed: July 10, 2015
    Publication date: November 12, 2015
    Inventors: Benjamin Bird, Miles James Weida, Jeremy Rowlette