2,833 research outputs found
The Development of John Wilbur Chapman's Life and Thought (1859-1918)
John Wilbur Chapman was one of the most prominent clergymen, church leaders and revivalists of the later nineteenth and early twentieth centuries. More than sixty million people attended his evangelistic campaigns worldwide. A study of his contributions shows that he dominated the evangelical landscape of America from 1906 to 1918. His campaigns in Canada and his subsequent world tours helped his fame spread internationally.
The objective of the dissertation was to find out whether Chapman’s contributions to Evangelicalism were as strong as indicated by his reputation during his day and if he should be remembered only as a secondary figure in revivalism. Historians have treated Chapman mostly as one of Dwight L. Moody’s assistants and as a lesser colleague to some of Moody’s lieutenants. If Chapman was significant, why did his name disappear from historical research and why was he relegated to a lesser position than his accomplishments deserved? What were Chapman’s contributions and how far did he advance revivalism?
The research conducted in this dissertation represents a decade of analysing archival materials, primary sources and secondary sources, including journals and newspaper articles. What was discovered was that J. Wilbur Chapman was more significant to the history of Evangelicalism than previously noted. An investigation of his work has reinforced an understanding of the concepts and techniques of later nineteenth-century evangelism and it has also revealed his contributions to the trajectory of revivalism. The study of Chapman's work also illuminates aspects of holiness, dispensationalism and social welfare during the Victorian and post-Victorian era
Control of Material Damping in High-Q Membrane Microresonators
We study the mechanical quality factors of bilayer aluminum/silicon-nitride
membranes. By coating ultrahigh-Q Si3N4 membranes with a more lossy metal, we
can precisely measure the effect of material loss on Q's of tensioned resonator
modes over a large range of frequencies. We develop a theoretical model that
interprets our results and predicts the damping can be reduced significantly by
patterning the metal film. Using such patterning, we fabricate Al-Si3N4
membranes with ultrahigh Q at room temperature. Our work elucidates the role of
material loss in the Q of membrane resonators and informs the design of hybrid
mechanical oscillators for optical-electrical-mechanical quantum interfaces
Disfluent Pausing Effects on Listener Judgments of an ASL-English Interpretation
Although not all spoken language pauses are purposeful or functional, there is general agreement on the function and appropriate length and placement of pauses in English. Failing to conform to this agreement constitutes a pausing disfluency. In an interpreted environment, pauses do not generally detract from the discourse event, nor do they negatively impact the participants’ perception of one another, as long as the interpreter maintains generally acceptable pausing parameters (Fors, 2011; Heldner & Edlund, 2010; Krivokapi, 2007). Listeners of any communication event invariably form opinions about the speaker’s personality and make judgments about their character and background, forming a favorable or unfavorable attitude (Isham, 1986). Cokely (1981, 2007) refers to these judgments or attitudes as metannotative qualities: non-content characteristics that guide a listener’s overall impression of a speaker. This study investigated the effect pausing disfluencies have on a listener’s judgment of the speaker; specifically, the effect of disfluent pausing on a listener’s judgment of a speaker in an ASL-English interpreted text. Relevant to practicing interpreters, findings indicate pausing disfluencies in an ASL-English interpreted text negatively affect the listener’s judgment of the ASL user
Strong Optomechanical Squeezing of Light
We create squeezed light by exploiting the quantum nature of the mechanical
interaction between laser light and a membrane mechanical resonator embedded in
an optical cavity. The radiation pressure shot noise (fluctuating optical force
from quantum laser amplitude noise) induces resonator motion well above that of
thermally driven motion. This motion imprints a phase shift on the laser light,
hence correlating the amplitude and phase noise, a consequence of which is
optical squeezing. We experimentally demonstrate strong and continuous
optomechanical squeezing of 1.7 +/- 0.2 dB below the shot noise level. The peak
level of squeezing measured near the mechanical resonance is well described by
a model whose parameters are independently calibrated and that includes thermal
motion of the membrane with no other classical noise sources.Comment: 12 pages, 8 figure
Cavity optomechanics with Si3N4 membranes at cryogenic temperatures
We describe a cryogenic cavity-optomechanical system that combines Si3N4
membranes with a mechanically-rigid Fabry-Perot cavity. The extremely high
quality-factor frequency products of the membranes allow us to cool a MHz
mechanical mode to a phonon occupation of less than 10, starting at a bath
temperature of 5 kelvin. We show that even at cold temperatures
thermally-occupied mechanical modes of the cavity elements can be a limitation,
and we discuss methods to reduce these effects sufficiently to achieve ground
state cooling. This promising new platform should have versatile uses for
hybrid devices and searches for radiation pressure shot noise.Comment: 19 pages, 5 figures, submitted to New Journal of Physic
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