293 research outputs found
Traditional Korean medicine in the modernization process: institutional and attitudinal changes
The objective of the research is to contribute to the sociological understanding of East Asian medicine in Korea. Specifically, at the institutional level, this study describes changes in the structure and organization of the traditional East Asian medical system, looks for some major reasons for these changes, examines the system\u27s developmental process as a social system, and inquires about the system\u27s dynamic relationship with Western medicine. At the individual level, this research examines the Korean people\u27s attitudes and behaviors concerning East Asian medicine in relation to Western medicine; the effects of sociodemographic variables and nationalistic sentiment on attitudes and use of East Asian medicine are examined;From May to August of 1988, the data were gathered from 191 randomly selected residents of Bong-Dug 2 Dong in Taegu city, Korea. Observations of medical facilities and library research were also conducted in Korea;Along with general social changes, the East Asian medical system has been substantially modernized in recent years. Health policies have clearly affected the status of the traditional medical system. The influences of professionalization on the status of the traditional medical system are generally upheld. At the individual level, the popularity of East Asian medicine has been maintained among the people, regardless of their age, gender, level of education, rural residence experience, and income. Nationalistic sentiment is significantly related to the attitude scale of East Asian medicine but is not significantly related to the two behavior indexes. Attitudes and behaviors concerning East Asian medicine are significantly correlated, but the relationships are not as strong as was anticipated
An ultra-wideband transmit/receive module using 10 to 35 GHz six-channel microstrip multiplexers and its applications to phased-array antenna transceiver systems
This dissertation introduces new and simple techniques for suppression of multispurious
passbands, which are inherent to the conventional microstrip parallel coupleline
bandpass filters. In addition, the operation of harmonic suppression is analyzed
using a simple model.
Special emphasis is placed on the applications of several new filter designs for
microstrip diplexers and multiplexers. Compact, full-duplex beam scanning antenna
transceiver systems with extremely broad bandwidth have also been developed.
Recent advances in broadband monolithic microwave integrated circuit (MMIC)
amplifiers make the realization of extremely broadband phased-array transceiver systems
possible. The ultra-wideband phased-array transceiver systems can be used in multi-band
mobile satellite communication systems and wideband radars. This dissertation presents
a multi-band, compact, full-duplex, beam scanning antenna transceiver system for
satellite communications and two designs of ultra-wideband, low-cost radar systems as
applications of the MMIC amplifiers. In addition, a multi-frequency antenna has been developed. A single-feed triple
frequency microstrip patch antenna is presented as an answer to the recent demand for
multi-function systems in the wireless communications.
In summary, the research presented in this dissertation covers every component
required to build an ultra-wideband, full-duplex beam scanning phased-array antenna
transceiver. The work done in this dissertation should have many applications in the
wireless communication systems and wideband radar technologies
Multiphase Equilibrium Behavior of the Mixture Carbon Dioxide + Ethane + Methanol
The Three-Phase Liquid-Liquid-Vapor (Llg) Phase Equilibrium Behavior of the Mixture Carbon Dioxide + Ethane + Methanol Was Experimentally Studied. the Boundaries of the Three-Phase Llg Region in Pressure-Temperature Space Are Delineated. Compositions and Molar Volumes of the Two Liquid Phases and the Vapor Phase Along the 288.15 and 298.15 K Isotherms Are Reported. © 1994, American Chemical Society. All Rights Reserved
Electronic topological transition in sliding bilayer graphene
We demonstrate theoretically that the topology of energy bands and Fermi
surface in bilayer graphene undergoes a very sensitive transition when
extremely tiny lateral interlayer shift occurs in arbitrary directions. The
phenomenon originates from a generation of effective non-Abelian vector
potential in Dirac Hamiltonian by the sliding motions. The characteristics of
the transition such as pair annihilations of massless Dirac fermions are
dictated by the sliding direction owing to a unique interplay between the
effective non-Abelian gauge fields and Berry's phases associated with massless
electrons. The transition manifests itself in various measurable quantities
such as anomalous density of states, minimal conductivity, and distinct Landau
level spectrum.Comment: title changed, an extended version for regular article format, 10
pages, 5 figure
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