Initiation : the writing process of Affiliated

Sims, Zachary Tyrell

10 December 2013

"Initiation: The Writing Process of Affiliated” documents the writing process of Affiliated, an one-hour gang drama set in Wichita, Kansas. The report also explores the background of the writer as well as the writing process of both drafts one and two of the pilot script. / text

Affiliated

Zachary

Sims

A Century of Ash

Kusch, Zachary

05 1900

Contained within is a sample, consisting of the first twelve chapters, which portray the final days of the fictional Polian War. The events are a springboard for the rest of the novel, and indeed the series.

A Century of Ash

Zachary Kusch

Whistling Dixie

Sutherland, Zac

17 December 2011

In this paper I will analyze the film, Whistling Dixie, as it relates to filmmaking principles such as: development, pre-production, production, and post-production. After evaluating all these aspects of the film, I will then make conclusions based on goals I had and how successful or unsuccessful I was in reaching these goals. I will include notes from unbiased audience members in evaluating this film.

American Civil War

Thesis

reenactment

high school

James Zachary Sutherland

Film and Media Studies

Improved Measurement and Separation Techniques for Interior Near-field Acoustical Holography

Collins, Zachary A.

19 November 2010

Recent advances in near-field acoustical holography (NAH) have expanded the theory to interior spaces where multiple sources and/or reflections are present. In 1990, Tamura presented the spatial Fourier transform separation method to measure the reflection coefficient at oblique angles using two measurement planes in the wave number domain. This paper adapts the spatial Fourier transform separation method for application in interior NAH. A practical exploration of important experimental parameters is performed, which include the relative amplitudes of primary and disturbing sources, the measurement plane separation distance, and an acceptable noise floor. This technique is successfully applied in a reverberant environment to reconstruct the velocity of a clamped vibrating plate. NAH methods based on the measurement of pressure and particle velocity have led to the ability to reduce the required measurement locations. Other recent advances in NAH have expanded the theory to interior spaces where multiple sources and/or reflections are present. This paper investigates the use of interpolation techniques to reduce the required measurement locations for interior NAH. Specifically, the benefits of a bi-cubic Hermite surface patch interpolation are discussed and compared to other interpolation routines. Although the required inputs for the Hermite interpolation can be measured using a variety of devices, a scanning six-microphone probe in a tetrahedral configuration is suggested. The six microphones are utilized to simultaneously sample pressure on two parallel planes and estimate the pressure gradients on both of these planes. The two interpolated measurement holograms are used to separate the incoming and outgoing waves using the spatial Fourier-transform method. Analytical simulations of simply supported plates are shown as well as experimental results in a reverberation room to characterize the reduction in measurement locations. Depending on the spatial frequency of the hologram, a measurement location reduction of 20–80% was observed.

Zachary Collins

Fourier

NAH

interior

acoustics

near-field acoustical holography

interpolation

particle velocity

wave separation

Tamura

six-microphone probe

Mechanical Engineering

Emoce v experimentální animaci / Emotions in experimental animation

Nováčková, Jana Kristýna

January 2016

This work deals with the relation of emotions to contemporary experimental animation. It engages in the emotional experience of a viewer to non-narrative film storytelling and its means of expression. At the same time, it examines what the creative processes and attitudes of filmmakers towards emotions in experimental animation are. Analysis of the questionnaires also reveals whether the creator counts on the viewer's specific interpretation of the film.

Optofluidic Manipulation with Nanomembrane Platforms Used for Solid-State Nanopore Integration

Walker, Zachary J.

16 June 2022

Nanopore technology has introduced new techniques for single particle detection and analysis. A nanopore consists of a small opening in a membrane on the nanometer scale. Nanopores are found in nature and are utilized for transporting molecules through biological membranes. Researchers have been able to mimic naturally forming biological nanopores and utilize them for a variety of sensing applications. Nanopores, fabricated either organically or inorganically, can be used for detecting biomarkers such as proteins, nucleic acids, and metabolites that translocate the membrane by way of the nanopore. Constant ionic current flow is measured through the nanopore by way of a sensitive ammeter. In the presence of a biomarker, the ionic current flow will be impeded, causing the electrical signal to drop. This drop uniquely corresponds to the type of particle passing through the nanopore. In this work, the thin membrane on which the nanopore resides is created through a newly developed meniscus shaped sacrificial technique. The sacrificial polymer material starts as a liquid and is confined to the microfluidic channel through the capillary effect, giving it the meniscus profile. It is used as a structural support on which a thin silicon dioxide layer is grown. The layer of oxide takes on the same natural meniscus shape as the sacrificial material. The polymer is subsequently etched, resulting in a hollow core liquid channel with a suspended meniscus membrane. This process allows a thin membrane to be fabricated on top of a microfluidic channel that ranges from 50-200 nm in thickness. The meniscus membrane is crucial to the success of nanopore formation. The nanoscale membrane allows for smaller, more precise nanopores to be created. Reduced nanopore dimensions are advantageous for the detection of smaller biomarkers. The platform described in this dissertation integrates solid-state naturally forming meniscus membranes with solid-core and optofluidic waveguides for nanopore detection applications. The waveguides allow for a particle trap to be introduced to the system. The ability to trap particles directly under the nanopore is critical to the speed of which the nanopore can operate. This dissertation focuses on the fabrication, characterization, and testing of an optofluidic platform that features a nanopore for rapid single molecule detection and analysis.

Zachary J. Walker

Aaron Hawkins

nanopore

micropore

optofluidics

microfluidics

single-molecule analysis

biosensor

lab-on-a-chip

integrated optics

ARROW

natural meniscus membrane

ionic current flow

optical trap

physical trap

Engineering

Occupying for Peace, The U.S. Army in Mexico, 1846-1848

Spahr, Thomas W.

17 March 2011

No description available.

American History

Armed Forces

History

International Relations

Latin American History

Military History

Military Studies

Mexican War

military occupation

occupation

counterinsurgency

guerrilla warfare

wartime president

Winfield Scott

John Wool

Zachary Taylor