Graduate Assistant at Missouri Innovation Center at MU
Location:
Columbia, Missouri
Industry:
Construction
Work:
Missouri Innovation Center at MU - Columbia, Missouri Area since Jan 2013
Graduate Assistant
AREI LLC - Greater St. Louis Area Jun 2012 - Jan 2013
Project Manager
Engineered Fire Protection Nov 2011 - Jan 2012
Project Assistant/Estimator
Accel Property Management Apr 2011 - Oct 2011
Property Manager/Marketer
BYUI Sep 2008 - Apr 2011
Housing Maintenance
Education:
University of Missouri-Columbia 2013 - 2014
Master of Business Administration (MBA)
Brigham Young University - Idaho 2008 - 2011
Bachelor of Applied Science, Construction Management
Mohammad Hafezi - Washington DC, US Jacob Taylor - Washington DC, US Eugene Demler - Newton MA, US Mikhail Lukin - Cambridge MA, US
International Classification:
G02B 6/42
US Classification:
385 31
Abstract:
Two-dimensional coupled resonator optical waveguide arrangements and systems, devices, and methods thereof. Networks of coupled resonator optical waveguides are arranged so as to exploit topological properties of these optical networks. Such arrangement affords topological protection against disorders or perturbations in the network that may hinder or block photon flow. As a result of a disorder, photons traversing along edge states of the array are rerouted based on the disorder or perturbation. Photon routing in the network is accordingly protected against disorder or defects.
- Princeton NJ, US Richard James Elliott Gilbert - Belle Mead NJ, US Jonathan Andrew Wharton - Ewing NJ, US James Bernard Oldham - Chester VA, US William D. Platt - Lumberton NJ, US Caryn Culleton Oryniak - Hillsborough NJ, US Gerhart P. Huy - Hamilton Square NJ, US Rajesh Ranjan - Princeton NJ, US Velissa Van Scoyoc - Philadelphia PA, US David Schweitzer - Weston CT, US Jacob Daniel Taylor - Chicago IL, US
Assignee:
Church & Dwight Co., Inc. - Princeton NJ
International Classification:
B65D 75/58 B65D 75/32 B65D 81/24
Abstract:
The present disclosure provides packaged articles that can provide improved ease of access to the articles. More particularly, such packaged articles can comprise a plurality of multilayer films with a product contained therebetween. The multilayer films can be sealingly engaged one to another substantially only at a perimeter band that defines a closed, interior compartment in which the product is contained and which defines a tab section that is exterior to the perimeter band. At least a section of the perimeter band proximate to the tab section can be configured as a peel-apart seal such that the interior compartment containing the product is accessible by at least partially peeling apart the multilayer films. The disclosure further provides methods of packaging a product, such as a condom, and methods for improving ease of access to a packaged article, such as a condom.
- Princeton NJ, US Caryn Culleton Oryniak - Hillsborough NJ, US Richard James Elliott Gilbert - Belle Mead NJ, US Jonathan Andrew Wharton - Ewing NJ, US Gerhart P. Huy - Hamilton Square NJ, US Michael T. Pinchiaroli - Martinsville NJ, US Rajesh Ranjan - Princeton NJ, US Velissa Van Scoyoc - Philadelphia PA, US Luis C. Muniz - Far Hills NJ, US David Schweitzer - Weston CT, US Jacob Daniel Taylor - Chicago IL, US
Assignee:
Church & Dwight Co., Inc. - Princeton NJ
International Classification:
B65D 75/32 B65D 65/38
Abstract:
The present disclosure provides packages that are configured for containing a prophylactic device and a plurality of lubricant compositions. The package can include a primary storage compartment in which the prophylactic device can be contained and a plurality of secondary storage compartments arranged relative to the primary storage compartment, the plurality of secondary storage compartments containing lubricant composition(s). The present disclosure further provides methods for providing a lubricated prophylactic device.
- Princeton NJ, US Caryn Culleton Oryniak - Hillsborough NJ, US Richard James Elliott Gilbert - Belle Mead NJ, US Jonathan Andrew Wharton - Ewing NJ, US Gerhart P. Huy - Hamilton Square NJ, US Michael T. Pinchiaroli - Martinsville NJ, US Rajesh Ranjan - Irvine CA, US Velissa Van Scoyoc - Philadelphia PA, US David Schweitzer - Weston CT, US Jacob Daniel Taylor - Chicago IL, US
Assignee:
Church & Dwight Co., Inc. - Princeton NJ
International Classification:
B65D 81/32 B65D 85/08 B65D 35/10 B65D 17/28
Abstract:
The present disclosure provides packages that are configured for containing a prophylactic device and a quantity of lubricant material. The package can include a first portion defining a first chamber containing a prophylactic device; and a second portion defining a second chamber containing a quantity of lubricant composition; wherein the first chamber of the first portion and the second chamber of the second portion are arranged to separably engage one another about external surfaces of the first portion and the second portion so as to form a unitary package. The present disclosure further provides methods for providing a lubricated prophylactic device.
- Gaithersburg MD, US Jacob Taylor - Washington DC, US Ryan Wagner - Gaithersburg MD, US Felipe Guzman - Bremen, DE
International Classification:
G01N 3/02 G02B 17/00 G01L 1/04 G01G 3/08
Abstract:
An optomechanical reference includes a basal member; a flexure that includes: a floating link; a first flexural member; and a second flexural member such that: the floating link is moveably disposed; a first stator; a second stator; a first cavity including: a first primary mirror; a first secondary mirror; a first optical coupler in optical communication with the first secondary mirror; and a first cavity length; and a second cavity including: a second primary mirror; a second secondary mirror; a second optical coupler; and a second cavity length.
An optomechanical laser includes: a basal member; a mechanical transducer; a laser disposed on the mechanical transducer, the laser being displaced along the displacement axis in response to a displacement of the mechanical transducer relative to the basal member; a mirror disposed on the armature in optical communication with the laser and opposing the laser; the armature disposed on the basal member and rigidly connecting the mirror to the basal member such that the mirror and the armature move in synchrony with the basal member, and the armature provides a substantially constant distance between the basal member and the mirror; and a cavity comprising: the laser; the mirror; and a cavity length between the laser and the mirror that changes in response to displacement of the laser according to the displacement of the mechanical transducer relative to the basal member, the optomechanical laser providing laser light.
- GAITHERSBRUG MD, US STEVE SEMANCIK - GAITHERSBURG MD, US JACOB M. TAYLOR - WASHINGTON DC, US JINGYUN FAN - ROCKVILLE MD, US MOHAMMAD HAFEZI - WASHINGTON DC, US HAITAN XU - COLLEGE PARK MD, US GREGORY STROUSE - FREDERICK MD, US
Assignee:
NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY - GAITHERSBURG MD
International Classification:
G01K 11/00
US Classification:
374130
Abstract:
A thermometer includes a substrate; an optical resonator disposed on the substrate and including an optical resonance, the optical resonator being configured to receive a resonant frequency corresponding to the optical resonance; and a waveguide disposed on the substrate proximate to the optical resonator to receive input light, to communicate the resonant frequency to the optical resonator, and to transmit output light; wherein an aperture is interposed between: the substrate and the optical resonator, the substrate and the waveguide, or a combination comprising at least one of the foregoing, and the thermometer is configured to change the optical resonance in response to a change in temperature of the optical resonator.
Magdalena S. Siwek, Ingrid H. Stairs, Daniel R. Stinebring, Kevin Stovall, Jerry P. Sun, Abhimanyu Susobhanan, Joseph K. Swiggum, Jacob Taylor, Stephen R. Taylor, Jacob E. Turner, Caner Unal, Michele Vallisneri, Rutger van Haasteren, Sarah J. Vigeland, Haley M. Wahl, Qiaohong Wang, Caitlin A. Witt
Media: Starwood Hotels & Resorts Trey Sarten, 212-380-4010 VP, Global Brand Communications [email protected] / or Day One Agency Jacob Taylor, 203-246-5059 [email protected]
llionth of the power required to run a hair dryer and symbolizes a key stride in endeavors to construct quantum-computing frameworks. I consider this to be a truly essential result for our long haul objective, which is entanglement between quantum bits in semiconductor-based devices, Jacob Taylor said.
Date: Jan 19, 2015
Category: Sci/Tech
Source: Google
Princeton University Researchers create the Smallest Laser
This is the first time that the team at Princeton has demonstrated that there is a connection between two double quantum dots separated by nearly a centimeter, a substantial distance, Jacob Taylor, an adjunct assistant professor at the Joint Quantum Institute, University of Maryland-National Insti
consider this to be a truly essential result for our long haul objective, which is entanglement between quantum bits in semiconductor-based devices, Jacob Taylor, an adjunct assistant professor at the Joint Quantum Institute, University of Maryland-National Institute of Standards and Technology an
Research co-author, Prof. Jacob Taylor from Joint Quantum Institute, University of Maryland-National Institute of Standards and Technology also made a few remarks. The professor said the new device is an important stepping stone for the researchers long haul objective, which is snare between quantu
Date: Jan 18, 2015
Source: Google
Princeton University Team Develops Miniscule Laser
Adjunct professor at the Joint Quantum Institute at the University of Maryland-National Institute of Standards and Technology, Jacob Taylor says, I consider this to be a really important result for our long-term goal, which is entanglement between quantum bits in semiconductor-based devices.
According to co-author and collaborator Jacob Taylor, an adjunct assistant professor at the Joint Quantum Institute, University of Maryland-National Institute of Standards and Technology,the device demonstrates a major step forward for efforts to build quantum-computing systems out of semiconductor