Christopher J Myatt, Age 541190 Crestmoor Dr, Boulder, CO 80303

8300993, Oct 30, 2012

Nov 12, 2009

12/617535

Kevin D. Moll - Boulder CO, US
Kurt R. Vogel - Boulder CO, US
Marie J. Delaney - Boulder CO, US
Michael J. Lochhead - Boulder CO, US
Christopher J. Myatt - Boulder CO, US

MBio Diagnostics, Inc. - Boulder CO

G02B 6/12

385 14

A sample can be illuminated for analysis using apparatus including a light source, a planar waveguide, and a refractive volume. The light source provides light along a propagation vector. The planar waveguide is oriented such that the propagation vector is perpendicular to the normal vector of the planar waveguide and offset from the planar waveguide in a direction parallel to the normal vector of the planar waveguide. The refractive volume is positioned proximate to the planar waveguide and can optically coupling light provided by the light source to the planar waveguide.

8586347, Nov 19, 2013

Sep 15, 2011

13/233794

Michael J. Lochhead - Boulder CO, US
Jeffrey Ives - Arvada CO, US
Kathryn Todorof - Boulder CO, US
Charles Greef - Louisville CO, US
Marie J. Delaney - Boulder CO, US
Kevin D. Moll - Boulder CO, US
Kurt R. Vogel - Boulder CO, US
Keagan B. Rowley - Boulder CO, US
Evelyn S. Woodruff - Longmont CO, US
John S. Dunn - Arvada CO, US
Christopher J. Myatt - Boulder CO, US
Daniel T. Nieuwlandt - Longmont CO, US

MBio Diagnostics, Inc. - Boulder CO

C40B 30/04
G01N 21/75
C12Q 1/68
C12M 1/00

4352831, 435 61, 422 8205, 506 9, 506 39, 385 14

A rapid diagnostic system that delivers a panel of serologic assay results using a small amount of blood, serum, or plasma is described. The system includes a disposable cartridge and a reader instrument, based on planar waveguide imaging technology. The cartridge incorporates a microarray of recombinant antigens and antibody controls in a fluidic channel, providing multiple parallel fluorescence assay results for a single sample.

2003003, Feb 20, 2003

Apr 10, 2002

10/120903

Christopher Myatt - Boulder CO, US
Kurt Vogel - Boulder CO, US
Tim Dinneen - Longmont CO, US
Jason Ensher - Lafayette CO, US

G01B009/02

356/519000

The invention describes devices and methods for determining the wavelength of coherent optical radiation such as is emitted from a laser source. The apparatus is monolithic with no moving parts and consists of optical components that generate signal periodic in the optical frequency of the coherent radiation detected by the component. Each optical component generates a signal with a different period. Differences between the periods of the signals generated by the optical frequency-dependent optical components provides a means of measuring optical wavelengths over a range far exceeding the free spectral range limitations of conventional interferometers. The method of the present invention allows for measurement of optical frequency with an uncertainty of much less than the period of the optical frequency-dependent optical components forming the apparatus.

2006024, Nov 2, 2006

Oct 4, 2005

11/243798

Jacob Lasri - Boulder CO, US
Kurt Vogel - Boulder CO, US
Neil Claussen - Longmont CO, US
Christopher Myatt - Boulder CO, US

Precision Photonics Corporation - Boulder CO

H01S 3/30
H01S 3/113
H01S 3/098
H01S 3/10

372018000, 372011000, 372020000, 372025000, 372006000

Systems, methods, circuits and/or devices for generating high repetition rate ultra-short pulses are described. As one of many examples, an optical pulse generating laser system is described that produces mode-locked optical pulses. The laser system incorporates an optical pulse generation device that includes two optical loops coupled via a beam splitter. In addition, the optical pulse generation device includes an optical gain medium that is associated with the first optical loop, and a saturable element that is disposed in either the first optical loop or the second optical loop. The saturable element is operable to modulate a group of optical pulses propagating in at least one of the first optical loop and the second optical loop to create a group of substantially regular modulated pulses.

2009029, Dec 3, 2009

Nov 3, 2008

12/263806

Nick Traggis - Boulder CO, US
Neil R. Claussen - Longmont CO, US
Ove Lyngnes - Louisville CO, US
Christopher J. Myatt - Boulder CO, US

Precision Photonics Corporation - Boulder CO

B32B 38/08
B32B 38/00

156 731, 156151, 1562755, 156153, 1562726

A method of assembling precision optical or optomechanical components of otherwise incompatible chemistry that provides first and second components having respective first and second polished contacting surfaces to be bonded; deposits a thin film dielectric coating at the surface of the first and or second polished surface, and contacts the coated portion of the first or second components with the respective contacting surfaces to be bonded, while maintaining alignment of the two components, to form a single structure.

2009029, Dec 3, 2009

Sep 19, 2008

12/233911

Nick Traggis - Boulder CO, US
Christopher J. Myatt - Boulder CO, US

PRECISION PHOTONICS CORPORATION - Boulder CO

B32B 37/12
B32B 37/00

1562755, 156281

This invention is a method of assembling precision optical or optomechanical components that provides first and second components having respective first and second polished contacting surfaces to be bonded; generates a hydrophilic surface on at least a portion of at least one of the first or second surfaces; rinses the hydrophilic portion with water or another suitable solvent; and contacts the hydrophilic portion of the first or second components with the respective contacting surfaces to be bonded, while maintaining alignment of the two components, to form a single structure

2009029, Dec 3, 2009

Apr 29, 2009

12/432485

Nick Traggis - Boulder CO, US
Neil R. Claussen - Longmont CO, US
Ove Lyngnes - Louisville CO, US
Christopher J. Myatt - Boulder CO, US

Precision Photonics Corporation - Boulder CO

B32B 37/02

1562755, 156 60, 1563082

A method of assembling precision optical or optomechanical components of otherwise incompatible chemistry that provides first and second components having respective first and second polished contacting surfaces to be bonded; deposits a thin film dielectric coating at the surface of the first and or second polished surface, and contacts the coated portion of the first or second components with the respective contacting surfaces to be bonded, while maintaining alignment of the two components, to form a single structure.

2010028, Nov 11, 2010

Feb 8, 2008

12/028459

Jacob Lasri - Boulder CO, US
Kurt R. Vogel - Boulder CO, US
Neil R. Claussen - Longmont CO, US
Christopher J. Myatt - Boulder CO, US

Precision Photonics Corporation - Boulder CO

H01S 3/098

372 18

Systems, methods, circuits and/or devices for generating high repetition rate ultra-short pulses are described. As one of many examples, an optical pulse generating laser system is described that produces mode-locked optical pulses. The laser system incorporates an optical pulse generation device that includes two optical loops coupled via a beam splitter. In addition, the optical pulse generation device includes an optical gain medium that is associated with the first optical loop, and a saturable element that is disposed in either the first optical loop or the second optical loop. The saturable element is operable to modulate a group of optical pulses propagating in at least one of the first optical loop and the second optical loop to create a group of substantially regular modulated pulses.