http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
The East-Asian VLBI Network: Recent Progress and Results of the First Imaging Test Observation
Kiyoaki Wajima,Duk-Gyoo Roh,Se-Jin Oh,Taehyun Jung,Jongsoo Kim,Yoshiaki Hagiwara,Kazuhiro Hada,Noriyuki Kawaguchi,Hideyuki Kobayashi,Yuanwei Wu,Kenta Fujisawa,Tao An,Willem A. Baan,Wu Jiang,Zhi-Qiang 한국천문학회 2016 天文學會報 Vol.41 No.1
노덕규,정재훈,ROH DUK-GYOO,JUNG JAE HOON 한국천문학회 1999 天文學論叢 Vol.14 No.2
대덕전파천문대 14m전파망원경의 주빔의 크기를 점 전파원인 SiO메이저원 및 금성을 관측하여 결정하였다. 점 전파원 매핑으로 측정하였을 때 주빔의 모양은 방위각 방향으로 일그러진 $63.0"\times59.2"$의 타원형으로 나타났으며 편평도는 1.064로써 비교적 적은 편이었다. 86.2, 98.0, 115.2GHz대역에서 평균적인 주빔의 반치폭(FWHM) $\theta_M$은 각각 $64\pm1",\;57\pm2",\;49\pm2"$이며, 적어도 100 GHz 이하의 대역에서는 빔크기가 주경면의 회절 패턴과 잘 일치하고 있었다. 금성, 목성 및 달의 측정을 통해 대덕전파천문대 14m 전파망원경의 안테나 효율을 다음과 같이 결정하였다. 86GHz, 98GHz, 및 115 GHz 대역에서의 구경효율 ${\eta}A$는 각각 0.37, 0.34, 0.29이고, 빔 효율 ${\eta}B$는 각각 0.49, 0.45, 0.41이며, 전방 넘침 및 산란 효율 ${\eta}fss$는 주파수 의존성이 없이 86∼115 GHz 대역에서 0.63이다. 안테나 온도의 측정오차로부터 파급되는 구경효율, 빔효율, 전방 넘침 및 산란 효율의 추정오차는 각각 $\pm0.025,\;\pm0.030,\;\pm0.004$이다. 최적 초점 위치는 안테나의 자중변형 및 주변은도 변화에 영향을 받으므로 매 관측 시 측정을 통해 결정하여야 한다. 자중, 변형 및 은도 변화에 따른 최적 초점 위치의 변화를 분리하는 모델링을 통해 최적 초점 위치의 자동 보정의 가능성이 있음을 밝혔다. 이때 자중변형의 영향은 $cos^2(EL)$의 함수로 적절히 표현된다. 이 자동 보정이 도입되면, 레이돔내부의 온도가 크게 변화하지 않을 경우 한번의 최적 초점 맞추기로 다른 고도에서도 최적 초점을 유지할 수 있음을 제시하였다. The beam size and the antenna efficiency of TRAO 14m radio telescope were measured at 86.2, 98.0 and 115.2 GHz. The beam size was determined by deconvolving the azimuthal scanning data of the Venus. To test the accuracy of our deconvolution method, the beam size at 86.2 GHz was compared with that determined from the mapping data of SiO maser line and we found no difference between them. With above beam sizes, antenna efficiencies were calculated from the continuum measurements of Venus, Jupiter and Moon. The beam efficiencies at these frequencies are appeared to be 0.49, 0.45 and 0.41, respectively. On the other hand, we also suggest that an automatic focus setting can be adopted for TRAO radio telescope based on the gradual change of best focus with elevation.
한일공동VLBI상관기에서 관측 데이터의 동기재생처리를 위한 RVDB 시스템 개발과 성능시험
Oh, Se-Jin,Roh, Duk-Gyoo,Yeom, Jae-Hwan,Chung, Hyun-Soo,Lee, Chang-Hoon,Kim, Kwang-Dong,Kim, Hyo-Ryoung,Oyama, Tomoaki,Kawaguchi, Noriyuki,Ozeki, Kensuke 한국천문학회 2008 天文學論叢 Vol.23 No.2
In this paper, we introduce the performance evaluation and development of Raw VLBI Data Buffer(RVDB) system for the synchronized playback processing of observed data in Korea-Japan Joint VLBI Correlator(KJJVC). The high-speed correlation processing system is under development so that the radio data obtained with 8192 channels and 8 Gbps speed from 16 stations will be able to be processed. When the recorded data of each station are played to correlator, the time synchronization of each station is very important because the correlator should process the data obtained with same time and condition. There are many types of recorder systems in the East Asia VLBI Network (EAVN). Therefore it is required to prepare the special time synchronized playback processing system to synchronize the time tag of observed data. The developed RVDB system consists of Data Input Output(DIO), 10GbE switch, and Disk Data Buffer(DDB). It can record the data with maximum 2 Gbps speed, and can play back the data to correlator with nominal 2 Gbps speed. To enable to play back the data of different playback system to the correlator, we developed the high-speed time synchronized playback processing system. We carried out the experiments of playing back and correlation for gigabit correlator and VCS trial product so as to confirm the performance of developed time synchronized playback processing system. In case of online and offline playing back experiment for gigabit correlator, we confirmed that the online and offline correlation results were the same. In case of playing back experiment for VCS trial product, we verified that the wide band and narrow band correlation results were also the same. Through the playing back experiments of RVDB system, the effectiveness of developed RVDB system was verified. In this paper, the system design, construction and experimental results are shown briefly.