362 research outputs found
Nanopores of carbon nanotubes as practical hydrogen storage media
We report on hydrogen desorption mechanisms in the nanopores of multiwalled carbon nanotubes (MWCNTs). The as-grown MWCNTs show continuous walls that do not provide sites for hydrogen storage under ambient conditions. However, after treating the nanotubes with oxygen plasma to create nanopores in the MWCNTs, we observed the appearance of a new hydrogen desorption peak in the 300–350 K range. Furthermore, the calculations of density functional theory and molecular dynamics simulations confirmed that this peak could be attributed to the hydrogen that is physically adsorbed inside nanopores whose diameter is approximately 1 nm. Thus, we demonstrated that 1 nm nanopores in MWCNTs offer a promising route to hydrogen storage media for onboard practical applications
Optical Shaping of Plasma Cavity for Controlled Laser Wakefield Acceleration
Laser wakefield accelerators rely on relativistically moving micron-sized
plasma cavities that provide extremely high electric field >100GV/m. Here, we
demonstrate transverse shaping of the plasma cavity to produce controlled
sub-GeV electron beams, adopting laser pulses with an axially rotatable
ellipse-shaped focal spot. We showed the control capability on electron
self-injection, charge, and transverse profile of the electron beam by rotating
the focal spot. We observed that the effect of the elliptical focal spot was
imprinted in the profiles of the electron beams and the electron energy
increased, as compared to the case of a circular focal spot. We performed 3D
particle-in-cell (PIC) simulations which reproduced the experimental results
and revealed dynamics of a new asymmetric self-injection process. This simple
scheme offers a novel control method on laser wakefield acceleration to produce
tailored electron beams and x-rays for various applications.Comment: 5 pages, 5 figure
Genetic analysis of env and gag gene fragments of bovine leukemia virus identified in cattle from Korea
Bovine leukemia virus (BLV) is the causative agent of enzootic bovine leukosis. This study was conducted to clarify the molecular characteristics of BLVs obtained from a specific region in Korea. Proviral BLVs were detected in anti-BLV antibody-positive blood samples by PCR. Env and gag fragments were sequenced and compared to previously published reference sequences. Analysis of the env gene sequence revealed that the YI strain was highly similar to genotype 1, including United States and Japanese strains. The gag gene sequence had the highest degree of similarity with a Japanese strain.OAIID:oai:osos.snu.ac.kr:snu2015-01/102/0000030777/4ADJUST_YN:YEMP_ID:A076079DEPT_CD:551CITE_RATE:0FILENAME:53-56.pdfDEPT_NM:수의학과CONFIRM:
The Efficacy of Hepatic Resection after Neoadjuvant Transarterial Chemoembolization (TACE) and Radiation Therapy in Hepatocellular Carcinoma Greater Than 5 cm in Size
In cases of large hepatocellular carcinoma (HCC), neoadjuvant treatment such as transarterial chemoembolization (TACE) and radiation therapy can be performed. The aim of this study was to evaluate the outcome of these treatments prior to hepatic resection. Between January 1994 and May 2007, 16 patients with HCC greater than 5 cm in size were treated with TACE and radiation therapy prior to hepatic resection. The clinicopathologic factors were reviewed retrospectively. Of the 16 patients, there were 14 men and two women, and the median age was 52.5 yr. TACE was performed three times in average, and the median radiation dosage was 45 Gy. The median diameter of tumor on specimen was 9.0 cm. The degree of tumor necrosis was more than 90% in 14 patients. The median survival time was 13.3 months. Five patients had survived more than 2 yr and there were two patients who had survived more than 5 yr. Although the prognosis of large HCC treated with neoadjuvant therapy is not satisfactory, some showed long-term survival loger than 5 yr. Further research will be required to examine the survival and disease control effect in a prospective randomized study
Development of foam-based layered targets for laser-driven ion beam production
We report on the development of foam-based double-layer targets (DLTs) for laser-driven ion acceleration. Foam layers with a density of a few mg cm-3 and controlled thickness in the 8-36 μm range were grown on μm-thick Al foils by pulsed laser deposition (PLD). The DLTs were experimentally investigated by varying the pulse intensity, laser polarisation and target properties. Comparing DLTs with simple Al foils, we observed a systematic enhancement of the maximum and average energies and number of accelerated ions. Maximum energies up to 30 MeV for protons and 130 MeV for C6+ ions were detected. Dedicated three-dimensional particle-in-cell (3D-PIC) simulations were performed considering both uniform and cluster-assembled foams to interpret the effect of the foam nanostructure on the acceleration process
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