28,302 research outputs found
Chen Chen, 42nd Annual ODU Literary Festival
Chen Chen is the author of When I Grow Up I Want to Be a List of Further Possibilities (BOA Editions, 2017), which was long-listed for the National Book Award and won the Thom Gunn Award, among other honors. Bloodaxe Books published a UK edition in June. He is also the author of four chapbooks, most recently You MUST Use the Word Smoothie (Sundress Publications, 2019) and Gesundheit! (in collaboration with Sam Herschel Wein and forthcoming from Glass Poetry Press, fall 2019). His work appears in many publications, including Poem-a-Day, The Massachusetts Review, The Best American Poetry, and The Best American Nonrequired Reading. He has received a Pushcart Prize and fellowships from Kundiman and the National Endowment for the Arts. He holds an MFA from Syracuse University and a PhD from Texas Tech University. He teaches at Brandeis University as the Jacob Ziskind Poet-in-Residence and co-runs the journal, Underblong. He lives in Waltham, Massachusetts, with his partner, Jeff Gilbert, and their pug, Mr. Rupert Gile
Supporting data used in the paper: Xi Chen, 2020, The LMARS based shallow-water dynamical core on generic gnomonic cubed-sphere geometry
# Simulation results of the unstaggered shallow water model
This repository contains the supporting data used in the paper: Xi Chen, 2020, The LMARS based shallow‐water dynamical core on generic gnomonic cubed‐sphere geometry, DOI: 10.1029/2020MS002280
Organization of the repository:
The tar archive with this data submission has a:
doc directory contains a README.md with information regarding naming conventions to label the model configurations for a shallow water test simulation. Additional information can also be found in README.md. Table 4 in the paper provides additional details.
The data directory contains the supporting data files (NetCDF format).Disclaimer: "This was prepared by Xi Chen under award NA18OAR4320123 from the National Oceanic and Atmospheric Administration, U.S. Department of Commerce. The statements, findings, conclusions, and recommendations are those of the author(s) and do not necessarily reflect the views of the National Oceanic and Atmospheric Administration, or the U.S. Department of Commerce.
Artimpaza brevilineata Tian & Chen, 2012 in Tian, Chen & Li 2012
Artimpaza brevilineata Tian & Chen, 2012 in Tian, Chen & Li, 2012: 43, figs. 1–9. (Figs. 28a, b) Type locality: China, Yunnan, Pu’er City, Yutang. Gender: female. Date collected: 2011.V.25 (2010.V.25, in the original description, is incorrect). Collector: Li-Chao TIAN & Gui-Qiang HUANG. Paratypes: 1 female, China, Yunnan, Lincang City, 1980.VI.1, Fen LIU leg. Remarks: In the original description, the type locality is “ Yunnan, Jinghong” while it is “ Yunnan, Yutang” according to the label. “Yutang” is actually in Pu’er, not Jinghong. The first author described the type locality by mistake. In the original description, the collector was only listed as Li-Chao TIAN, which was a mistake.Published as part of Li, Zhu & Chen, Li, 2020, Primary types of longhorned beetles (Coleoptera, Cerambycidae, Vesperidae and Disteniidae) of Southwest University (SWU), pp. 25-46 in Zootaxa 4718 (1) on page 33, DOI: 10.11646/zootaxa.4718.1.2, http://zenodo.org/record/360220
Author contributions
Please browse the "Files" tag to access the appendix specifying the author - Chen Hsi Tsai's contributions to the seven papers included in the thesis
Ying Chen\u27s Impressions of Summer
Chapbook of narrative/personal poems by Ying Chen originally published by Finishing Line Press in 2013. Translated from the French by Peter Schulman, ODU Professor of French and International Studies.https://digitalcommons.odu.edu/worldlanguages_books/1016/thumbnail.jp
《在中法之间 — 陈伟农的艺术体验》 Zai Zhong Fa zhi jian: Chen Weinong de yishu tijian / “Between China and France. The Artistic Experience of Chen Weinong”
The author analizes the artistic production of the Chinese contemporary artist Chen Weinong, who has travelled between China and France for more ten years. In his ink paintings and calligraphies, Chen Weinong reflects the essence of both Western and Eastern cultures, succeeding in refreshing the ancient tradition as well as blazing new trails in Chinese art
Programmatic and performance observations for Two Chamber Works by Chen Yi
As a Chinese-American composer who was born and reared in China, then studied and settled in the United States, Chen Yi’s success is widely recognized around the world. However, this success is not coincidental and is closely related to her fusion of the Chinese and Western cultures in her works. At the time of this writing, Chen Yi has composed more than forty chamber works, from which the author researched two with the same instrumentation—flute, clarinet, violin, cello, and piano. By understanding Chen Yi’s life experiences and analyzing the theoretical aspects of these compositions, the author gives suggestions for ensemble, timbre, rhythm, pedaling, and performance techniques in these two chamber works by Chen Yi—Happy Rain on a Spring Night and … as like a raging fire
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Laser micro/nano scale processing of glass and silicon
textThe revolutionary progress in semiconductor, communication, and information
industries based on electronic and photonic technologies demands for the development
and enhancement of new laser processes to support micro and nanotechnologies. This
dissertation is aimed at exploring the use of lasers for micro and nano scale processing of
glass and silicon, the most commonly used materials in the IC industry. The objective of
the dissertation is two fold: a) use lasers for locally micro bonding glass and silicon
wafers, and b) use lasers for nanopatterning glass and silicon substrates by circumventing
the diffraction limit of light.
In the first part of the thesis, glass and silicon wafers are bonded locally in
microscale by a pulsed Nd:YAG laser. Glass is transparent to the wavelength used and
hence the laser beam passes through the glass wafer and is absorbed by silicon. As a
result, silicon is melted and upon resolidification bonding is realized between the two
substrates. The transient melting and resolidification of the substrates is studied
experimentally and compared to the simulation results of a finite element numerical
model. The bonded areas are studied in detail using a scanning electron microscope and a
chemical analysis is done to understand the bonding mechanism.
In the second part of the thesis, nanopatterns are created on glass and silicon
substrates by circumventing the diffraction limit of light. The nanofeatures are created by
irradiating silica and gold nanospheres deposited on a substrate. In case of silica spheres,
features approximately half the diameter of the sphere were obtained by utilizing the
optical field enhancement around the spheres. In case of gold spheres, features as small as
40 nm were realized by the excitation of coherent resonant electron plasma oscillations.
The effect of sphere size, laser wavelength, polarization, incident angle, and energy were
studied experimentally. Finally, these experimental results are compared with the
numerical results from a multidimensional, heat transfer model.Mechanical Engineerin
[Ping Lao She zuo pin]. 3
[陳大鵬].Title and author supplied by cataloguer.Live recording.Electronic reproduction from Rulan Chao Pian Audio Cassette Collection.Spoken in Chinese.[Chen Dapeng]
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Engineering Polymeric Scaffolds for Studying Neural Tissue Development, Pathology, and Repair
Digital light processing (DLP) 3D printing involves projecting a near-UV or visible light via an LED light source onto a digital micromirror device (DMD), which is the same device that is used in light projectors. I used this light-based bioprinting technique throughout my PhD work to develop hydrogel scaffolds to address pressing questions and challenges in in vitro neural tissue engineering and in vivo regenerative medicine applications.In Chapter 1, an overview of the development of biomaterials suited for light-based 3D-printing modalities with an emphasis on bioprinting applications is presented. The chemical mechanisms that govern photopolymerization are discussed, and the application of natural, synthetic, and composite biomaterials as 3D-printed hydrogels are highlighted. Since the quality of a 3D-printed construct is highly dependent on both the material properties and processing technique, the theoretical and practical aspects governing light-based 3D printing are also discussed.
In Chapter 2, the development of a 3D printed in vitro optic nerve formation model is described. Hereditary and age-related optic nerve diseases as well as injuries can lead to vision loss and impairment which greatly reduces a person’s quality of life. In development, the optic nerve is derived from axonal projections of retinal ganglion cells in the retina. There is an unmet need in ophthalmology for a complete visual circuit in vitro model to study formation, neurodegeneration, and function of the optic nerve. We have taken the first step to create the visual circuit in vitro by developing a 3D-printed microgroove hydrogel platform for guiding axonal outgrowth from iPSC-derived retinal ganglion cell (RGC) spheroids.
In Chapter 3, the development of a 3D-printed conduit for functional recovery after a peripheral nerve injury is described. Many studies have explored different materials and active cues to guide neural regeneration, with some success. However, none have demonstrated a comparable or better functional recovery than the gold standard autograft. Autografts remain insufficient for full recovery from a large injury to the sciatic nerve or brachial plexus nerves. We have designed a 3D-printed hydrogel multi-microchannel conduits with and without orthogonal micropores to guide axonal outgrowth and external vascular integration, respectively, that perform as well as the gold standard autograft therapy
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