http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
바니 콕스,Barney, Cox 대한인쇄문화협회 2009 프린팅코리아 Vol.8 No.6
자신에게 맞는 프론트 엔드(front-end)를 사용하는 것은, 특히 디지털과 오프셋을 모두 운영하고 있지만 제공 선택의 범위 때문에 결정하기 어려운 경우라면, 모든 점에서 이득이 될 수 있다. 오늘날의 디지털 기계는 날렵하고 성능이 좋은 소형의 기계 장치이다. 그렇지만, 디지털 인쇄 장치를 최대한으로 활용하기 위해서는 힘이 아니라 머리가 필요하다. 디지털 작동의 머리 즉, 워크플로우는 매우 중요하다. 가장 현명한 선택을 한다는 것은 항상 기지를 유지한다는 의미이다. 그렇다면, 디지털 하드웨어 및 소프트웨어의 가장 좋은 방향은 무엇인가? 그것은 전적으로 사업의 특성과 목표로 하는 애플리케이션에 달려있다. 자신에게 맞는 것이 저 길 아래에 있는 다른 회사와는 매우 다를 수 있다.
바니 콕스,Barney, Cox 대한인쇄문화협회 2009 프린팅코리아 Vol.8 No.6
현재 업계에서 가장 활발히 논의되는 2가지 토픽은 환경과 디지털 인쇄다. 디지털 인쇄에서 잉크를 제거하는 문제는 이 두 가지 토픽이 만나는 교차로가 된다. 인쇄의 환경 신뢰도 개선은 매체 혼합에서 그것의 위치를 확인하기 위한 중요한 단계다. 그러나 그 효과를 높이기 위한 디지털 기술의 채택 역시 중요한 단계다.
Beam commissioning of the SπRIT time projection chamber
Jhang, Genie,Barney, Jon,Estee, Justin,Isobe, Tadaaki,Kaneko, Masanori,Kurata-Nishimura, Mizuki,Cerizza, Giordano,Santamaria, Clementine,Lee, Jung Woo,Lasko, Paweł,Łukasik, Jerzy,Lynch, William G.,McI 한국물리학회 2016 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol. No.
Beam Commissioning of the SπRIT Time Projection Chamber
Genie Jhang,Jon Barney,Justin Estee,Tadaaki Isobe,Masanori Kaneko,Mizuki Kurata-Nishimura,Giordano Cerizza,Clementine Santamaria,Jung Woo Lee,Paweł Lasko,Jerzy Łukasik,William G. Lynch,Alan B. McIntos 한국물리학회 2016 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.69 No.2
The SπRIT Time Projection Chamber (TPC) was constructed at Michigan State University in the U.S.A. and transported to the Radioactive Isotope Beam Factory at RIKEN in Japan. In October 2015, the SπRIT TPC was commissioned with 200 AMeV 79Se beams outside the SAMURAI dipole magnet. The experimental setup consists of the SπRIT TPC, a Multiplicity Trigger Array, a KATANA array, and a Active Veto array. The TPC is fully equipped with a newly-developed read-out electronics system, GET electronics. The trigger logic to select events of the TPC based on the ancillary detectors was tested. The analysis software, SπRITROOT, was developed to analyze the SπRIT TPC data to determine the best trigger logic for upcoming experiments.
현정인,바니크라메키 한국목재공학회 1980 목재공학 Vol.8 No.1
Quantitative assessment of edge blunting of saw-teeth was carried out by TALYSURF. 1. Using the following equation, the real shape of a saw-tooth can be traced on the graph of TALYSURF. Δh/h = VΔχ/Vχ {Δh : vertical distance of stylus h : vertical distance in chart VΔχ : velocity of stylus Vχ : velocity of chart 2. As shown on Fig 2, the error from stylus itself can be calculated by following equation. i) 13.8μ≤χ$lt;20.4μ y= -0.2246χ+ 4.59μ ii) 0≤χ$lt;13.8μ y= -√(18μ)²-χ²-1.42χ+32.7μ 3. The relationship between profile of saw-tooth and error from stylus itself can be calculated by following equation. E(%)=f(x)×r/18μ/f(R)×R/18.5μ-f(r)×r/18μe7100 E(%) = error of stylus / dullness of saw tooth × 100 r : radius of stylus tip R : radius of tip which is drawn in graph of talysurf f(r) : error of stylus f(R) : dullness of tip which is drawn in graph of talysurf 4. The graph of maximum error and profile of saw-tooth was parabola.
강준구,Sungjin Ko,W. Barney Smith,Heung-Chul Kim,이인용,Joon-Seok Chae 대한수의학회 2016 Journal of Veterinary Science Vol.17 No.2
North Korea is located on the northern part of the Korean Peninsula in East Asia. While tick-borne pathogens of medical and veterinary importance have been reported from China and South Korea, they have not been reported from North Korea. To screen for zoonotic tick-borne pathogens in North Korea, ticks were collected from domestic goats. A total of 292 (27 nymph, 26 male, 239 female) Haemaphysalis (H.) longicornis were collected and assayed individually for selected tick-borne pathogens. A total of 77 (26.4%) were positive for Anaplasma bovis, followed by Bartonella (B.) grahamii (15, 5.1%), Anaplasma phagocytophilum (12, 4.1%), Bartonella henselae (10, 3.4%), and Borrelia spp. (3, 1.0%) based on 16S ribosomal RNA and ITS species-specific nested polymerase chain reaction. Using the groEL-based nested PCR, a total of 6 and 1 H. longicornis were positive for B. grahamii and B. henselae, respectively. All products were sequenced and demonstrated 100% identity and homology with previously reported sequences from other countries in GenBank. This is the first report of the detection of tick-borne pathogens in the North Korea and suggests that farm animals may act as reservoirs for zoonotic tick-borne pathogens.
Extending the dynamic range of electronics in a Time Projection Chamber
Estee, J.,Lynch, W.G.,Barney, J.,Cerizza, G.,Jhang, G.,Lee, J.W.,Wang, R.,Isobe, T.,Kaneko, M.,Kurata-Nishimura, M.,Murakami, T.,Shane, R.,Tangwancharoen, S.,Tsang, C.Y.,Tsang, M.B.,Hong, B.,Lasko, P. Elsevier 2019 Nuclear instruments & methods in physics research. Vol.944 No.-
<P><B>Abstract</B></P> <P>When Time Projection Chambers (TPCs) are used in low to intermediate heavy ion collisions, the mass and momentum range of the emitted particles cover a wide range in energy losses. Many TPC readout electronics currently only have a single gain output with a fixed dynamic range. In a recent set of experiments using the SAMURAI Pion-Reconstruction and Ion-Tracker (S π RIT) TPC, it was important to simultaneously measure relativistic pions and heavy ion tracks from the same collisions. As the ionization from a track’s energy loss is collected and multiplied by the anode wires, a distribution of image charges is induced on the TPC read-out pads. If the avalanche on a wire is large enough, the charge collected by pads directly underneath will saturate the readout electronics; pads farther away in the distribution will not be saturated. Using these unsaturated pads and the known pad distribution function, we can estimate the charge on saturated pads, increasing the dynamic range by a factor of 5.</P>
SπRIT: A time-projection chamber for symmetry-energy studies
Shane, R.,McIntosh, A.B.,Isobe, T.,Lynch, W.G.,Baba, H.,Barney, J.,Chajecki, Z.,Chartier, M.,Estee, J.,Famiano, M.,Hong, B.,Ieki, K.,Jhang, G.,Lemmon, R.,Lu, F.,Murakami, T.,Nakatsuka, N.,Nishimura, M Elsevier 2015 Nuclear Instruments & Methods in Physics Research. Vol.784 No.-
<P><B>Abstract</B></P> <P>A time-projection chamber (TPC) called the SAMURAI Pion-Reconstruction and Ion-Tracker (SπRIT) has recently been constructed at Michigan State University as part of an international effort to constrain the symmetry-energy term in the nuclear Equation of State (EoS). The SπRIT TPC will be used in conjunction with the SAMURAI spectrometer at the Radioactive Isotope Beam Factory (RIBF) at RIKEN to measure yield ratios for pions and other light isospin multiplets produced in central collisions of neutron-rich heavy ions, such as <SUP>132</SUP>Sn+<SUP>124</SUP>Sn. The SπRIT TPC can function both as a TPC detector and as an active target. It has a vertical drift length of 50cm, parallel to the magnetic field. Gas multiplication is achieved through the use of a multi-wire anode plane. Image charges, produced in the 12096 pads, are read out with the recently developed Generic Electronics for TPCs.</P>