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"Wilson, P."
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The zoo
\"There are certain things that Yuri Zipit knows: That being official food-taster for the leader of the Soviet Union requires him to drink too much vodka for a 12-year-old. That you do not have to be an Elephantologist to see that the great leader is dying. That Marshal Bruhah has been known to eat his own children, while Comrade Krushka is only fit to run a slaughterhouse, and that one of them has Yuri's father somewhere here in the Dacha. That it's a crime to love your family more than you love Socialism, the Party, or the Motherland. That, because of his damaged mind, everyone thinks Yuri is a fool. But Yuri isn't. He sits quietly through another excessive state dinner and witnesses it all--betrayals, body doubles, buffoonery. He's starting to get the hang of this politics thing, but there's so much to learn. Who knew that a man could be in five places at once? That someone could break your nose as a sign of friendship? That people could be disinvented? The Zoo is a cutting satire, told through the refreshing voice of one gutsy boy who will not give up on hope.\"-- Provided by publisher.
Book
Pat Garrett and Billy the Kid as I knew them : reminiscences of John P. Meadows
\"Cowboy, army guide, farmer, peace officer, and character in his own right, John P. Meadows arrived in New Mexico from Texas as a young man. During his life in the Southwest, he knew or worked for many well-known characters, including William \"Billy the Kid\" Bonney, Sheriff Pat Garrett, John Selman, Hugh Beckwith, Charlie Siringo, and Pat Coghlan.
Book
Laparoscopic intraperitoneal onlay mesh (IPOM) repair using n-butyl-2-cyanoacrylate (Liquiband Fix8™) for mesh fixation: learning experience and short-medium term results
AimThe purpose of this study was to evaluate a novel hernia repair glue fixation device (LiquibandFix8™) in laparoscopic IPOM repair for incisional hernias.MethodsAll ventral incisional hernia patients requiring laparoscopic IPOM repair were included in the study. A retrospective review of the data was performed.Results137 patients underwent 138 laparoscopic IPOM repairs for incisional hernias using n-butyl-2-cyanoacrylate (LiquibandFix8™) for mesh fixation over a 40-month period by a single experienced laparoscopic surgeon. There were 70 males and 67 females, median age 54 years (range 23–80 years). Defects were predominantly midline n = 123/138 (89%) and were closed by transfascial sutures in 126/138 (91%) prior to IPOM repair (IPOM plus). Mesh fixation was successful in all 138 repairs. Synthetic meshes (Symbotex™ [polyester/collagen composite, Medtronic] n = 80, and Dynamesh® [polypropylene/PVDF composite, FEG Textiltechnik mbH] n = 5) and biologic meshes (Surgimend® [bovine collagen dermal matrix, Integra] n = 53) were used. Median follow-up was 32 months (range 12–48 months). There were 16 adverse events in 12 patients (9%): conversion to open surgery (inadvertent enterotomy) 2 (1.5%), bladder perforation 1, intraperitoneal bleeding 2, port-site haematoma 2, port site wound infection 1, post-op ileus 2, chest infection 1, seroma 1 (1%), hernia recurrence 3 (2%) and chronic pain 2 (1.5%).ConclusionThis retrospective study shows that mesh fixation in laparoscopic IPOM using cyanoacrylate glue with the Liquiband Fix8™ device is feasible, safe, easy to learn, and is associated with a low risk of seroma, hernia recurrence and chronic pain with short-medium term follow-up.
Journal Article
The Jovian Auroral Distributions Experiment (JADE) on the Juno Mission to Jupiter
The Jovian Auroral Distributions Experiment (JADE) on Juno provides the critical
in situ
measurements of electrons and ions needed to understand the plasma energy particles and processes that fill the Jovian magnetosphere and ultimately produce its strong aurora. JADE is an instrument suite that includes three essentially identical electron sensors (JADE-Es), a single ion sensor (JADE-I), and a highly capable Electronics Box (EBox) that resides in the Juno Radiation Vault and provides all necessary control, low and high voltages, and computing support for the four sensors. The three JADE-Es are arrayed 120
∘
apart around the Juno spacecraft to measure complete electron distributions from ∼0.1 to 100 keV and provide detailed electron pitch-angle distributions at a 1 s cadence, independent of spacecraft spin phase. JADE-I measures ions from ∼5 eV to ∼50 keV over an instantaneous field of view of 270
∘
×90
∘
in 4 s and makes observations over all directions in space each 30 s rotation of the Juno spacecraft. JADE-I also provides ion composition measurements from 1 to 50 amu with
m
/Δ
m
∼2.5, which is sufficient to separate the heavy and light ions, as well as O+ vs S+, in the Jovian magnetosphere. All four sensors were extensively tested and calibrated in specialized facilities, ensuring excellent on-orbit observations at Jupiter. This paper documents the JADE design, construction, calibration, and planned science operations, data processing, and data products. Finally, the
Appendix
describes the Southwest Research Institute [SwRI] electron calibration facility, which was developed and used for all JADE-E calibrations. Collectively, JADE provides remarkably broad and detailed measurements of the Jovian auroral region and magnetospheric plasmas, which will surely revolutionize our understanding of these important and complex regions.
Journal Article
Visualizing electrostatic gating effects in two-dimensional heterostructures
The ability to directly monitor the states of electrons in modern field-effect devices—for example, imaging local changes in the electrical potential, Fermi level and band structure as a gate voltage is applied—could transform our understanding of the physics and function of a device. Here we show that micrometre-scale, angle-resolved photoemission spectroscopy
1
–
3
(microARPES) applied to two-dimensional van der Waals heterostructures
4
affords this ability. In two-terminal graphene devices, we observe a shift of the Fermi level across the Dirac point, with no detectable change in the dispersion, as a gate voltage is applied. In two-dimensional semiconductor devices, we see the conduction-band edge appear as electrons accumulate, thereby firmly establishing the energy and momentum of the edge. In the case of monolayer tungsten diselenide, we observe that the bandgap is renormalized downwards by several hundreds of millielectronvolts—approaching the exciton energy—as the electrostatic doping increases. Both optical spectroscopy and microARPES can be carried out on a single device, allowing definitive studies of the relationship between gate-controlled electronic and optical properties. The technique provides a powerful way to study not only fundamental semiconductor physics, but also intriguing phenomena such as topological transitions
5
and many-body spectral reconstructions under electrical control.
Changes in the electronic states of two-dimensional semiconductor devices resulting from electrical gating can be monitored directly using micrometre-scale angle-resolved photoemission spectroscopy.
Journal Article
