283 research outputs found
The MSFC vector magnetograph
The NASA/Marshall Space Flight Center's solar vector magnetograph system allows measurements of all components of the Sun's photospheric magnetic field over a 5 x 5 or 2.5 x 2.5 arc min square field of view with an optimum time resolution of approximately 100 sec and an optimum signal-to-noise of approximately 1000. The basic system components are described, including the optics, detector, digital system, and associated electronics. Automatic sequencing and control functions are outlined as well as manual selections of system parameters which afford unique system flexibility. Results of system calibration and performance are presented, including linearity, dynamic range, uniformity, spatial and spectral resolutions, signal-to-noise, electro-optical retardation and polarization calibration
Shamans and nativism:postcolonial trauma in Spirits’ Homecoming (2016) and Manshin: Ten Thousand Spirits (2013)
Influence of Humidity on Microtribology of Vertically Aligned Carbon Nanotube Film
The aim of this study is to probe the influence of water vapor environment on
the microtribological properties of a forestlike vertically aligned carbon
nanotube (VACNT) film, deposited on a silicon (001) substrate by chemical vapor
deposition. Tribological experiments were performed using a gold tip under
relative humidity varying from 0 to 100%. Very low adhesion forces and high
friction coefficients of 0.6 to 1.3 resulted. The adhesion and friction forces
were independent of humidity, due probably to the high hydrophobicity of VACNT.
These tribological characteristics were compared to those of a diamond like
carbon (DLC) sample
The developmental state, speculative urbanisation and the politics of displacement in gentrifying Seoul
What does gentrification mean under speculative urbanisation led by a strong developmental state? This paper analyses the contemporary history of Seoul’s urban redevelopment, arguing that new-build gentrification is an endogenous process embedded in Korea’s highly speculative urban development processes from the 1980s. Property owners, construction firms and local/central governments coalesce, facilitating the extraction of exchange value by closing the rent gap. Displacement of poorer owner-occupiers and tenants was requisite for the success of speculative accumulation. Furthermore, the paper also contends that Korea’s speculative urbanisation under the strong developmental (and later (neo-)liberalising) state has rendered popular resistance to displacement ineffective despite its initial success in securing state concessions. Examining the experience of Seoul in times of condensed industrialisation and speculative urbanisation helps inform the existing literature on gentrification by resorting to non-Western empirics
Introduction: locating gentrification in the Global East
This special issue, a collection of papers presented and debated at an Urban Studies Foundation-funded workshop on Global Gentrification in London in 2012, attempts to problematise contemporary understandings of gentrification, which is all too often confined to the experiences of the so-called Global North, and sometimes too narrowly understood as classic gentrification. Instead of simply confirming the rise of gentrification in places outside of the usual suspects of North America and Western Europe, a more open-minded approach is advocated so as not to over-generalise distinctive urban processes under the label of gentrification, thus understanding gentrification as constitutive of diverse urban processes at work. This requires a careful attention to the complexity of property rights and tenure relations, and calls for a dialogue between gentrification and non-gentrification researchers to understand how gentrification communicates with other theories to capture the full dynamics of urban transformation. Papers in this special issue have made great strides towards these goals, namely theorising, distorting, mutating and bringing into question the concept of gentrification itself, as seen from the perspective of the Global East, a label that we have deliberately given in order to problematise the existing common practices of grouping all regions other than Western European and North American ones into the Global South
Graphite flake self-retraction response based on potential seeking
The high elastic modulus and interlayer strengths of graphite flakes make them a durable solid superlubricant. Apart from this, they have configurable electrical properties, exhibit quantum Hall effects, and possess a myriad of useful photonic properties. The self-retraction behavior of graphite flakes can have significant impact on the creation of ordered stacks for various applications because any accidental or intentional displacement of the top flake over the stacks below may result in a misalignment of the carbon-carbon atomic arrangement which, in turn, can have influence over the electrical and photonic properties. It has also been revealed that there was a tendency of the displaced microflake to fail at times to return to its original starting position and orientation. Here, we elucidate this behavior by considering the influence of the interlayer potential forces based on minimal potential energy seeking. The maps of the parameters interrogated here provide the ability for precautions to be undertaken. They also potentially permit the creation of an array of microflake stacks in which the metastable states permit different information to be encoded by virtue of the differentiated photonic or electrical characteristics readable from each array site
Tip-functionalized carbon nanotubes under electric fields
We investigated the electronic structures of chemically modified carbon nanotube tips under electric fields using density functional calculations. Hydrogen, oxygen, and hydroxyl group-terminated nanotubes have been considered as field emitters or probe tips. In the case of the open-ended tubes, the field emission originates primarily from the dangling-bond states localized at the edge, whereas the pentagonal defects are the main source of the field emission in the capped tubes. The open-ended nanotube with a zigzag edge is an efficient field emitter because of the localized electronic states around the Fermi level and the atomic alignment of carbon-carbon bonds along with external electric fields. Tip functionalization alters the local density of states as well as the chemical selectivity of nanotubes in various ways. The correlations between atomic geometries of chemically functionalized tips and their electronic structures are further discussed. We propose that a hydrogen-terminated tube would be a promising probe tip for selective chemical imaging.open252
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