• Geosciences Journal
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• 제23권4호
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• pp.547-556
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• 2019

A new species of the most primitive rosenellid stromatoporoid Cystostroma, C. primordia sp. nov. is reported from the Hunghuayuan Formation (Lower Ordovician, Floian) of Guizhou Province in the South China Block and the Duwibong Formation (Middle Ordovician, Darriwilian) of the Taebaeksan Basin in mid-eastern Korea (North China Block). This species is the first representative of the genus found in both the North and South China blocks. Cystostroma primordia sp. nov. is characterized by the absence of denticles and distinctively smaller cyst plates (height 0.04-0.20 mm, length 0.09-0.39 mm) than any other known species of Cystostroma. The presence of C. primordia sp. nov. in Lower to Middle Ordovician strata of western Gondwana challenges the long-held view of the late Middle Ordovician emergence of Paleozoic stromatoporoids. The simple internal morphological features of this new species and its occurrence in the Lower Ordovician of South China strongly indicate that an Early Ordovician Cystostroma-type precursor from western Gondwana is located near the base of the stromatoporoid stock. This occurrence greatly preceded the late Middle Ordovician (late Darriwilian) stromatoporoid diversification in circum-equatorial regions worldwide.

• 대한수학회지
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• 제46권6호
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• pp.1139-1150
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• 2009

We obtain necessary and sufficient conditions for $2{\tims}2$ block operator valued matrices to be Moore-Penrose (MP) invertible and give new representations of such MP inverses in terms of the individual blocks.

• 자원환경지질
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• 제28권6호
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• pp.559-569
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• 1995

Paleomagnetic data have been obtained from the Upper Carboniferous-Permian Komok and Cheolam Groups which are exposed in the E-W trending Baekunsan syncline comprising the Pyongan Supergroup in eastern Korea. Two ancient components of magnetization are recovered in these groups by detailed thermal demagnetization: a post-folding component and a pre-folding component. The post-folding component $(D/I=54.0/54.6^{\circ},\;{\alpha}_{95}=14.6^{\circ})$ is a magnetic signature of the Oaebo Orogeny and appears to have been confined mainly to Cretaceous Normal Superchron. It has been rotated clockwise since this magnetization has been acquired. The pre-folding components ($D/I=341/-9.2^{\circ},\;{\alpha}_{95}=7.2^{\circ})$, paleopole at $335.7^{\circ}E$, $44.6^{\circ}N$ for Upper Carboniferous; $D/I=358.3/11.5^{\circ},\;{\alpha}_{95}=6.3^{\circ})$, paleopole at $311.9^{\circ}E$, $58.7^{\circ}N$ for Permian) pass fold and reversal tests. These paleopoles correspond only with the contemporaneous poles from the North China Block: they are removed from the poles from the South China Block. If the results of this study are corrected for the clockwise rotation deduced from the prefolding component, the enhanced agreement with North China Block can be achieved. Therefore, a first-order correlation between the Korean Peninsula and North China at least since Upper Paleozoic times is identified in this study.

• 자원환경지질
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• 제26권3호
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• pp.383-393
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• 1993

Paleomagnetic data have been obtained from the Lower Triassic Tonggo formation which is exposed in the E-W trending Baekunsan syncline comprising the Pyongan Supergroup in eastern Korea. Two ancient components of magnetization are recovered in this formation by detailed thermal demagnetization: a post-folding component and a pre-folding component The post-folding component ($D/I=58.8/55.5^{\circ}$) is normally magnetized and appears to acquire in the Cretaceous Normal Superchron. It is a magnetic signature of the Daebo Orogeny and has been rotated clockwise since this magnetization has been acquired, in common with the main synclinal axis. The pre-folding component ($D/I=1.1/19.4^{\circ}$, Paleopole at $306.1^{\circ}E$, $63.2^{\circ}N$) passes fold and reversal tests and is inferred to be a post-depositional or early chemical diagenetic remanence of Lower-Middle Triassic age. This paleopole corresponds only with the Lower Triassic poles from the North China Block: it is removed from the contemporary poles from the South China Block. If the result of this study is corrected for the clockwise rotation deduced from the Cretaceous overprint, the enhanced agreement with the Lower Triassic poles from the North China block can be achieved. Therefore, a first order correlation between the Korean Peninsula and North China at least since Lower Triassic times is identified in this study.

• 암석학회지
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• 제21권2호
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• pp.59-87
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• 2012

최근 송림 조산운동시기인 트라이아스기에 홍성 지역의 에클로자이트와 경기육괴 내에 광범위하게 나타나는 충돌 후 화성암이 형성되었음이 확인되었다. 이러한 새로운 발견에 의해 1980년대 말에 확인된 남중국판과 북중국판의 충돌대인 트라이아스기 친링-다비-수루 충돌대가 한반도의 홍성 지역으로 연결된 후 양평 지역을 거쳐 오대산 지역으로 연결되는 모델이 제시되었다. 그 이후 충돌대는 일본 서남부의 고생대 섭입 복합체와 북한의 고생대 섭입 복합체인 연변대로 연결될 가능성이 높다. 이럴 경우 경기육괴는 홍성-양평-오대산 충돌대를 경계로 나뉘어져야하며 충돌대 북부는 북중국판에 남부는 남중국판에 대비될 것이다. 남중국판과 북중국판의 충돌은 페름기에 한반도로부터 시작하여 중국 쪽으로 진행되었으며 트라이아스기 말에 충돌이 완료되었다. 다비-수루-홍성-양평-오대산 충돌대를 따라 동측에서 서측으로 변성조건이 체계적으로 변화한다. 가장 동측에 해당하는 오대산 지역에서는 245-230 Ma 초고온 변성작용이 한반도의 서측에 해당하는 홍성지역에서는 230Ma 고압변성작용이 그리고 중국의 수루, 다비 지역에서는 220Ma의 초고압 변성작용이 일어났다. 충돌대를 따라 나타나는 체계적인 변성조건의 변화는 충돌 전 섭입된 해양지각의 양이 동측에서 서측으로 증가하여 섭입하던 대륙판과 해양판의 분리되는 깊이가 동측에서 서측으로 점차 증가하였기 때문인 것으로 생각된다. 한반도 남부 영남육괴와 남중국판 남부에 광범위하게 나타나는 페름기-트라이아스기 섭입관련 화성암은 북중국판과 남중국판의 페름기-트라이아스기 충돌이 남중국판 남쪽 경계부에서의 섭입작용을 시작시켰을 가능성이 있음을 지시한다. 즉 한반도의 송림 조산운동 시기에는 경기육괴지역에서 대륙충돌이 일어나 한반도가 형성되었으며 동시에 대륙충돌에 의해 영남육괴 남측에 섭입대를 형성되었을 것으로 예상된다. 홍성-양평-오대산 충돌대를 경계로 하여 경기육괴 북부와 남부는 모두 콜롬비아 초대륙 형성 후기인 1870-1840 Ma에 대륙충돌이나 섭입 작용에 의해 화성 및 변성작용을 강하게 받았다. 옥천 변성대는 중국 남중국판 내에 나타나는 760Ma 경에 형성된 난후아 열곡대에 대비될 수 있으며 그럴 경우 경기육괴 남부와 영남육괴는 각각 남중국판의 북부 양쯔판과 남부 커테시아판에 대비된다. 최근 경기육괴 변성퇴적암, 옥천변성대 등에서 광역적으로 발견되는 실루리아기-데본기의 쇄설성 저어콘은 경기육괴 내에 데본기 혹은 그 이후 고생대 시기의 퇴적암이 존재할 가능성을 제시하고 있으며 홍성과 광천 지역에서 확인된 데본기의 변성작용과 함께 페름기-트라이아스기의 대륙충돌 이전인 고생대 중기에도 경기육괴에 활발한 지구조 운동이 일어났음을 지시한다.

• 암석학회지
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• 제17권3호
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• pp.144-153
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• 2008

평택-아산 지역에 분포하는 신생대 현무암질 암석의 Sr, Nd, Pb 동위원소 조성은 한국의 다른 신생대 현무암들과 마찬가지로 중앙해령 현무암에 비해 상당히 부화된 값을 보여준다. 평택-아산 지역을 포함하는 한국의 신생대 현무암질 암석들 대부분은 제주도의 현무암들과는 달리 비교적 낮은 $^{206}Pb/^{204}Pb$ 성분을 갖는 부화맨틀과 결핍맨틀 사이의 혼합으로 설명될 수 있다. 반면에 제주도의 경우는 보다 높은 $^{206}Pb/^{204}Pb$ 성분을 갖는 부화맨틀과 결핍맨틀 사이의 혼합으로 설명된다. 이러한 경향성은 북동 중국과 남동중국의 신생대 현무암들에서도 유사한 부화맨틀 단성분의 차이가 발견되는 것과 연관지어 해석할 때는 한국의 중부지역과 남부지역 아래의 대륙암권 맨틀이 각각 북중국지괴 및 남중국지괴의 동측 연장부일 가능성을 나타낸다. 제주도 아래에 남중국 지괴와 같은 종류의 대륙암권맨틀의 성분이 나타나는 것은 중국의 대륙충돌대 위치와 관련한 만입모델로는 설명할 수 없다. 오히려 맨틀의 조성에서 뚜렷한 차이를 보이는 두 대륙의 봉합대가 한반도의 중부와 남부지역의 사이로 지나가며 그 위치는 평택-아산 지역보다 더 남쪽임을 시사한다. 대륙충돌대 경계의 위치가 과거의 연구에서 주로 주장되던 임진강대의 위치와는 상당히 다른 것은 맨틀 경계가 지각의 경계와 다를 가능성을 배제할 수 없다.

• 지구물리
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• 제9권3호
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• pp.209-217
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• 2006

The major continental blocks in NE-Asia are the North China Block and the South China Blo, which have collided, starting from the Korean peninsula. The suture zone in NE China between two blocks is well defined from the QinIing-Dabie-Orogenic Belt to the Jiaodong (Sulu) Belt by the geological and geophysical interpretation. The discovery of high pressure metamorphic rocks in the Hongsung area of the Korean peninsula can be used to estimate the suture zone. This indicates that the suture zone in the Jiaodong Belt might be extended to Hongsung area. However, due to the lack of geological and geophysical data over the Yellow sea, the extension of the suture zone to the Korean peninsula across the Yellow Sea is obscure. To find out the tectonic relationship between NE China and the Korean peninsula it is necessary to complete U-ie homogeneous geophysical dataset of NE Asia, which can be provided by satellite observations. The CHAMP lithospheric magnetic field (MF3) and CHAMP-GRACE gravity field, combined with surface measured data, allow a much more accurate in-ference of tectonic structures than previously available. The CHAMP magnetic anomaly map reveals significant magnetic lows in the Yellow Sea near Nanjing and Hongsung, where are characterized by gravity highs on U-ie CHAMP-GRACE gravity anomaly map. To evaluate the depth and location of poten-tial field anomaly causative bodies, the Euler Deconvolution method is implemented. After comparing the two potential field solutions with the simplified geological map containing tectonic lines and the distribution of earthquakes epicenters, it is found that the derived structure boundaries of both are well coincident with the seismic activities as well as with the tectonic lineaments. The interpretation of the CHAMP satellite magnetic and GRACE satellite gravity datasets reveal two tectonic boundaries in U-ie Yellow Sea and the Korean peninsula, indicating U-ie norttiern and southern margins of the suture zone between the North China Block and the South China Block. The former is extended from the Jiaodong Belt in East China to the Imjingang Belt on the Korean peninsula, the later from Nanjing, East China, to Hongsung, the Korean peninsula. The tectonic movement in or near the suture zone might be responsible for the seismic activities in the western region of the Korean Peninsula and the development of the Yellow Sea sedimentary basin.

• KSII Transactions on Internet and Information Systems (TIIS)
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• 제13권12호
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• pp.6043-6062
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• 2019

Low-rank matrix decomposition has shown its capability in many applications such as image in-painting, de-noising, background reconstruction and defect detection etc. In this paper, we consider the texture background of rail track images and the sparse foreground of the defects to construct a low-rank matrix decomposition model with block sparsity for defect inspection of rail tracks, which jointly minimizes the nuclear norm and the 2-1 norm. Similar to ADM, an alternative method is proposed in this study to solve the optimization problem. After image decomposition, the defect areas in the resulting low-rank image will form dark stripes that horizontally cross the entire image, indicating the preciselocations of the defects. Finally, a two-stage defect extraction method is proposed to locate the defect areas. The experimental results of the two datasets show that our algorithm achieved better performance compared with other methods.

• Nuclear Engineering and Technology
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• 제56권4호
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• pp.1357-1371
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• 2024

To investigate the influence of different burial conditions on the seepage characteristics of loose sandstone in the leaching mining of sandstone uranium ore, this study applied different ground pressures and water pressures to rock samples at different burial depths to alter the rock's seepage characteristics. The permeability, pore distribution, and particle distribution characteristic parameters were determined, and the results showed that at the same burial depth, ground pressure had a greater effect on the reduction in permeability than water pressure. The patterns and mechanisms are as follows: under the influence of ground pressure, increasing the burial depth compresses the pores in the rock samples, decreases the proportion of effective permeable pores, and causes particle fragmentation, which blocks pore channels, resulting in a decrease in permeability. Under the influence of water pressure, increasing the burial depth expands the pores but also causes hard clay particles to decompose and block pore channels. As the burial depth increases, the particles eventually decompose completely, and the permeability initially decreases and then increases. In this experiment, the relationships between permeability and the proportion of pores larger than 0.15 ㎛ and the proportion of particles smaller than 59 ㎛ were found to be the most significant.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2008년도 International Symposium on Remote Sensing
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• pp.418-421
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• 2008

Wenchuan earthquake (Mw 7.9) occurred in Sichuan province, China, May 2008 had resulted in a huge fault displacement around the Lungmenshan fault. Preliminary results of the fault displacement observed by ALOS PALSAR interferometry are presented. The surface deformation by the Wenchuan earthquake was reported up to 10m consisting of thrust- and right-slip compnents. A significant reduction in ionospheric density was also reported. Twenty differential interferograms and twenty multiple aperture SAR interferometry (MAI) pairs were produced over four ALOS tracks. It was observed from differential interferograms that i) LOS deformation decreases steadily from northnorthwest of the Longmenshan fault to the fault, ii) the LOS deformation sharply increases at areas around the fault, and iii) the decrease of the LOS deformation is observed from the Longmenshan fault to the south-southeast of the fault. Horizontal movement of the reverse fault displacement can better be observed by MAI technique, and the MAI phases show that i) the south-southeast directional reverse fault displacement (negative along-track deformation for an ascending track) of the north-northwest block gradually increases to the Longmenshan fault, ii) the reverse fault movement of the south-southeast block is sharply reversed to the north-northwest of the fault, and iii) the northnorthwest movement gradually decreases to the south-southeast of fault. Although the Lonmenshan Fault line is a center of earthquake epicenter, the boundary of surface movement exists to the north-northeast of the fault. Since the ionosphere was not stable even forty days after the mainshock, MAI phases were seriously corrupted by ionospheric effect. It is necessary to acquire more data when the ionosphere recovered to a normal state.