218 results on '"Gu, X. F."'
Search Results
2. Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector
- Author
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Bay, Daya, collaborations, JUNO, Abusleme, A., Adam, T., Ahmad, S., Aiello, S., Akram, M., Ali, N., An, F. P., An, G. P., An, Q., Andronico, G., Anfimov, N., Antonelli, V., Antoshkina, T., Asavapibhop, B., de André, J. P. A. M., Babic, A., Balantekin, A. B., Baldini, W., Baldoncini, M., Band, H. R., Barresi, A., Baussan, E., Bellato, M., Bernieri, E., Biare, D., Birkenfeld, T., Bishai, M., Blin, S., Blum, D., Blyth, S., Bordereau, C., Brigatti, A., Brugnera, R., Budano, A., Burgbacher, P., Buscemi, M., Bussino, S., Busto, J., Butorov, I., Cabrera, A., Cai, H., Cai, X., Cai, Y. K., Cai, Z. Y., Cammi, A., Campeny, A., Cao, C. Y., Cao, G. F., Cao, J., Caruso, R., Cerna, C., Chakaberia, I., Chang, J. F., Chang, Y., Chen, H. S., Chen, P. A., Chen, P. P., Chen, S. M., Chen, S. J., Chen, X. R., Chen, Y. W., Chen, Y. X., Chen, Y., Chen, Z., Cheng, J., Cheng, Y. P., Cheng, Z. K., Chepurnov, A., Cherwinka, J. J., Chiarello, F., Chiesa, D., Chimenti, P., Chu, M. C., Chukanov, A., Chuvashova, A., Clementi, ., Clerbaux, B., Di Lorenzo, S. Conforti, Corti, D., Costa, S., Corso, F. D., Cummings, J. P., Dalager, O., De La Taille, C., Deng, F. S., Deng, J. W., Deng, Z., Deng, Z. Y., Depnering, W., Diaz, M., Ding, X. F., Ding, Y. Y., Dirgantara, B., Dmitrievsky, S., Diwan, M. V., Dohnal, T., Donchenko, G., Dong, J. M., Dornic, D., Doroshkevich, E., Dove, J., Dracos, M., Druillole, F., Du, S. X., Dusini, S., Dvorak, M., Dwyer, D. A., Enqvist, T., Enzmann, H., Fabbri, A., Fajt, L., Fan, D. H., Fan, L., Fang, C., Fang, J., Fatkina, A., Fedoseev, D., Fekete, V., Feng, L. C., Feng, Q. C., Fiorentini, G., Ford, R., Formozov, A., Fournier, A., Franke, S., Gallo, J. P., Gan, H. N., Gao, F., Garfagnini, A., Göttel, A., Genster, C., Giammarchi, M., Giaz, A., Giudice, N., Giuliani, F., Gonchar, M., Gong, G. H., Gong, H., Gorchakov, O., Gornushkin, Y., Grassi, M., Grewing, C., Gromov, M., Gromov, V., Gu, M. H., Gu, W. Q., Gu, X. F., Gu, Y., Guan, M. Y., Guardone, N., Gul, M., Guo, C., Guo, J. Y., Guo, L., Guo, W. L., Guo, X. H., Guo, Y. H., Guo, Z., Haacke, M., Hackenburg, R. W., Hackspacher, P., Hagner, C., Han, R., Han, Y., Hans, S., He, M., He, W., Heeger, K. M., Heinz, T., Heng, Y. K., Herrera, R., Higuera, A., Hong, D. J., Hor, Y. K., Hou, S. J., Hsiung, Y. B., Hu, B. Z., Hu, H., Hu, J. R., Hu, J., Hu, S. Y., Hu, T., Hu, Z. J., Huang, C. H., Huang, G. H., Huang, H. X., Huang, Q. H., Huang, W. H., Huang, X. T., Huang, Y. B., Huber, P., Hui, J. Q., Huo, L., Huo, W. J., Huss, C., Hussain, S., Insolia, A., Ioannisian, A., Ioannisyan, D., Isocrate, R., Jaffe, D. E., Jen, K. L., Ji, X. L., Ji, X. P., Ji, X. Z., Jia, H. H., Jia, J. J., Jian, S. Y., Jiang, D., Jiang, X. S., Jin, R. Y., Jing, X. P., Johnson, R. A., Jollet, C., Jones, D., Joutsenvaara, J., Jungthawan, S., Kalousis, L., Kampmann, P., Kang, L., Karagounis, M., Kazarian, N., Kettell, S. H., Khan, A., Khan, W., Khosonthongkee, K., Kinz, P., Kohn, S., Korablev, D., Kouzakov, K., Kramer, M., Krasnoperov, A., Krokhaleva, S., Krumshteyn, Z., Kruth, A., Kutovskiy, N., Kuusiniemi, P., Lachacinski, B., Lachenmaier, T., Langford, T. J., Lee, J., Lee, J. H. C., Lefevre, F., Lei, L., Lei, R., Leitner, R., Leung, J., Li, C., Li, D. M., Li, F., Li, H. T., Li, H. L., Li, J., Li, J. J., Li, J. Q., Li, K. J., Li, M. Z., Li, N., Li, Q. J., Li, R. H., Li, S. C., Li, S. F., Li, S. J., Li, T., Li, W. D., Li, W. G., Li, X. M., Li, X. N., Li, X. L., Li, X. Q., Li, Y., Li, Y. F., Li, Z. B., Li, Z. Y., Liang, H., Liang, J. J., Liebau, D., Limphirat, A., Limpijumnong, S., Lin, C. J., Lin, G. L., Lin, S. X., Lin, T., Lin, Y. H., Ling, J. J., Link, J. M., Lippi, I., Littenberg, L., Littlejohn, B. R., Liu, F., Liu, H., Liu, H. B., Liu, H. D., Liu, H. J., Liu, H. T., Liu, J. C., Liu, J. L., Liu, M., Liu, Q., Liu, R. X., Liu, S. Y., Liu, S. B., Liu, S. L., Liu, X. W., Liu, Y., Lokhov, A., Lombardi, P., Loo, K., Lorenz, S., Lu, C., Lu, H. Q., Lu, J. B., Lu, J. G., Lu, S. X., Lu, X. X., Lubsandorzhiev, B., Lubsandorzhiev, S., Ludhova, L., Luk, K. B., Luo, F. J., Luo, G., Luo, P. W., Luo, S., Luo, W. M., Lyashuk, V., Ma, Q. M., Ma, S., Ma, X. B., Ma, X. Y., Ma, Y. Q., Malyshkin, Y., Mantovani, F., Mao, Y. J., Mari, S. M., Marini, F., Marium, S., Marshall, C., Martellini, C., Martin-Chassard, G., Caicedo, D. A. Martinez, Martini, A., Martino, J., Mayilyan, D., McDonald, K. T., McKeown, R. D., Müller, A., Meng, G., Meng, Y., Meregaglia, A., Meroni, E., Meyhöfer, D., Mezzetto, M., Miller, J., Miramonti, L., Monforte, S., Montini, P., Montuschi, M., Morozov, N., Muralidharan, P., Napolitano, J., Nastasi, M., Naumov, D. V., Naumova, E., Nemchenok, I., Nikolaev, A., Ning, F. P., Ning, Z., Nunokawa, H., Oberauer, L., Ochoa-Ricoux, J. P., Olshevskiy, A., Ortica, F., Pan, H. R., Paoloni, A., Park, J., Parkalian, N., Parmeggiano, S., Patton, S., Payupol, T., Pec, V., Pedretti, D., Pei, Y. T., Pelliccia, N., Peng, A. G., Peng, H. P., Peng, J. C., Perrot, F., Petitjean, P. A., Rico, L. F. Pineres, Popov, A., Poussot, P., Pratumwan, W., Previtali, E., Pun, C. S. J., Qi, F. Z., Qi, M., Qian, S., Qian, X., Qian, X. H., Qiao, H., Qin, Z. H., Qiu, S. K., Rajput, M., Ranucci, G., Raper, N., Re, A., Rebber, H., Rebii, A., Ren, B., Ren, J., Reveco, C. M., Rezinko, T., Ricci, B., Robens, M., Roche, M., Rodphai, N., Rohwer, L., Romani, A., Rosero, R., Roskovec, B., Roth, C., Ruan, X. C., Ruan, X. D., Rujirawat, S., Rybnikov, A., Sadovsky, A., Saggese, P., Salamanna, G., Sangka, A., Sanguansak, N., Sawangwit, U., Sawatzki, J., Sawy, F., Schever, M., Schuler, J., Schwab, C., Schweizer, K., Selivanov, D., Selyunin, A., Serafini, A., Settanta, G., Settimo, M., Shahzad, M., Shi, G., Shi, J. Y., Shi, Y. J., Shutov, V., Sidorenkov, A., Simkovic, F., Sirignano, C., Siripak, J., Sisti, M., Slupecki, M., Smirnov, M., Smirnov, O., Sogo-Bezerra, T., Songwadhana, J., Soonthornthum, B., Sotnikov, A., Sramek, O., Sreethawong, W., Stahl, A., Stanco, L., Stankevich, K., Stefanik, D., Steiger, H., Steiner, H., Steinmann, J., Stender, M., Strati, V., Studenikin, A., Sun, G. X., Sun, L. T., Sun, J. L., Sun, S. F., Sun, X. L., Sun, Y. J., Sun, Y. Z., Suwonjandee, N., Szelezniak, M., Tang, J., Tang, Q., Tang, X., Tietzsch, A., Tkachev, I., Tmej, T., Treskov, K., Troni, G., Trzaska, W., Tse, W. -H., Tull, C. E., Tuve, C., van Waasen, S., Boom, J. Vanden, Vassilopoulos, N., Vedin, V., Verde, G., Vialkov, M., Viaud, B., Viren, B., Volpe, C., Vorobel, V., Votano, L., Walker, P., Wang, C., Wang, C. H., Wang, E., Wang, G. L., Wang, J., Wang, K. Y., Wang, L., Wang, M. F., Wang, M., Wang, N. Y., Wang, R. G., Wang, S. G., Wang, W., Wang, W. S., Wang, X., Wang, X. Y., Wang, Y., Wang, Y. F., Wang, Y. G., Wang, Y. M., Wang, Y. Q., Wang, Z., Wang, Z. M., Wang, Z. Y., Watcharangkool, A., Wei, H. Y., Wei, L. H., Wei, W., Wei, Y. D., Wen, L. J., Whisnant, K., White, C. G., Wiebusch, C., Wong, S. C. F., Wong, H. L. H., Wonsak, B., Worcester, E., Wu, C. H., Wu, D. R., Wu, F. L., Wu, Q., Wu, W. J., Wu, Z., Wurm, M., Wurtz, J., Wysotzki, C., Xi, Y. F., Xia, D. M., Xie, Y. G., Xie, Z. Q., Xing, Z. Z., Xu, D. L., Xu, F. R., Xu, H. K., Xu, J. L., Xu, J., Xu, M. H., Xu, T., Xu, Y., Xue, T., Yan, B. J., Yan, X. B., Yan, Y. P., Yang, A. B., Yang, C. G., Yang, H., Yang, J., Yang, L., Yang, X. Y., Yang, Y. F., Yang, Y. Z., Yao, H. F., Yasin, Z., Ye, J. X., Ye, M., Yegin, U., Yeh, M., Yermia, F., Yi, P. H., You, Z. Y., Young, B. L., Yu, B. X., Yu, C. X., Yu, C. Y., Yu, H. Z., Yu, M., Yu, X. H., Yu, Z. Y., Yuan, C. Z., Yuan, Y., Yuan, Z. X., Yuan, Z. Y., Yue, B. B., Zafar, N., Zambanini, A., Zeng, P., Zeng, S., Zeng, T. X., Zeng, Y. D., Zhan, L., Zhang, C., Zhang, F. Y., Zhang, G. Q., Zhang, H. H., Zhang, H. Q., Zhang, J., Zhang, J. B., Zhang, J. W., Zhang, P., Zhang, Q. M., Zhang, T., Zhang, X. M., Zhang, X. T., Zhang, Y., Zhang, Y. H., Zhang, Y. M., Zhang, Y. P., Zhang, Y. X., Zhang, Y. Y., Zhang, Z. J., Zhang, Z. P., Zhang, Z. Y., Zhao, F. Y., Zhao, J., Zhao, R., Zhao, S. J., Zhao, T. C., Zheng, D. Q., Zheng, H., Zheng, M. S., Zheng, Y. H., Zhong, W. R., Zhou, J., Zhou, L., Zhou, N., Zhou, S., Zhou, X., Zhu, J., Zhu, K. J., Zhuang, H. L., Zong, L., and Zou, J. H.
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Physics - Instrumentation and Detectors ,High Energy Physics - Experiment - Abstract
To maximize the light yield of the liquid scintillator (LS) for the Jiangmen Underground Neutrino Observatory (JUNO), a 20 t LS sample was produced in a pilot plant at Daya Bay. The optical properties of the new LS in various compositions were studied by replacing the gadolinium-loaded LS in one antineutrino detector. The concentrations of the fluor, PPO, and the wavelength shifter, bis-MSB, were increased in 12 steps from 0.5 g/L and <0.01 mg/L to 4 g/L and 13 mg/L, respectively. The numbers of total detected photoelectrons suggest that, with the optically purified solvent, the bis-MSB concentration does not need to be more than 4 mg/L. To bridge the one order of magnitude in the detector size difference between Daya Bay and JUNO, the Daya Bay data were used to tune the parameters of a newly developed optical model. Then, the model and tuned parameters were used in the JUNO simulation. This enabled to determine the optimal composition for the JUNO LS: purified solvent LAB with 2.5 g/L PPO, and 1 to 4 mg/L bis-MSB., Comment: 13 pages, 8 figures
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- 2020
3. Characterization of crystal structure and precipitation crystallography of a new MgxAl2-xGd phase in Mg97Al1Gd2 alloy
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Gu, X. -F. and Furuhara, T.
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Condensed Matter - Materials Science - Abstract
The composition, crystal structure and precipitation crystallography of a newly found precipitate are characterized by a Cs-corrected scanning transmission electron microscopy (STEM). The composition of the plate-like precipitate could be expressed as MgxAl2-xGd (x = 0.38), and its crystal structure is the same as the fcc type Laves phases Mg2Gd and Al2Gd with the lattice parameter of 7.92 Angstrom (space group No. 227, Fd-3m). The orientation relationship between the matrix and precipitate is found to be (0001)m // (111)p and [10-10]m // [1-10]p, and the habit plane is parallel to (0001)m // (111)p plane. In addition, this preferred crystallography of phase transformation is well explained based on the atomic matching in the interface.
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- 2016
- Full Text
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4. Faceted interfaces: a key feature to quantitative understanding of transformation morphology
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Zhang, W. -Z., Gu, X. -F., and Dai, F. -Z.
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Condensed Matter - Materials Science - Abstract
Faceted interfaces are a key feature in self-resembling morphologies of many microstructures generated from solid state phase transformations. Interpretations, predictions and simulations of the faceted morphologies remain a challenge, especially for systems in which irrational orientation relationships (ORs) between two phases and irrational interface orientations (IOs) are preferred. In terms of structural singularities, this work suggests an integrated framework, which possibly encompasses all candidates of faceted interfaces. The structural singularities are identified in a matching pattern, a dislocation structure and/or a ledge structure. The resultant singular interfaces are discrete IOs, described with low index g's (rational orientations) and/or Delta-g's (either rational or irrational orientations). Elimination of defects exerts restrictions on the OR and the lattice parameters. Various models are grouped according to their determined results regarding the OR and IO, and the links between the models are clarified in the integrated framework. An irrational IO is usually due to elimination of dislocations in one direction, i.e., an O-line interface. Analytical methods using both 3D and 2D models for quantitative determinations of O-line interfaces are reviewed, and a detailed example showing the calculation for an irrational interface is given. The association between structural singularities and local energy minima is verified by atomistic calculations of interfacial energies in fcc/bcc alloys where it is found that the calculated equilibrium cross-sections are in a good agreement with observations from selected alloys., Comment: This paper has been withdrawn due to the error use of Figure 4
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- 2016
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5. Computing Quasiconformal Maps on Riemann surfaces using Discrete Curvature Flow
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Zeng, W., Lui, L. M., Luo, F., Liu, J. S., Chan, T. F., Yau, S. T., and Gu, X. F.
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Mathematics - Numerical Analysis ,Mathematics - Metric Geometry - Abstract
Surface mapping plays an important role in geometric processing. They induce both area and angular distortions. If the angular distortion is bounded, the mapping is called a {\it quasi-conformal} map. Many surface maps in our physical world are quasi-conformal. The angular distortion of a quasi-conformal map can be represented by Beltrami differentials. According to quasi-conformal Teichm\"uller theory, there is an 1-1 correspondence between the set of Beltrami differentials and the set of quasi-conformal surface maps. Therefore, every quasi-conformal surface map can be fully determined by the Beltrami differential and can be reconstructed by solving the so-called Beltrami equation. In this work, we propose an effective method to solve the Beltrami equation on general Riemann surfaces. The solution is a quasi-conformal map associated with the prescribed Beltrami differential. We firstly formulate a discrete analog of quasi-conformal maps on triangular meshes. Then, we propose an algorithm to compute discrete quasi-conformal maps. The main strategy is to define a discrete auxiliary metric of the source surface, such that the original quasi-conformal map becomes conformal under the newly defined discrete metric. The associated map can then be obtained by using the discrete Yamabe flow method. Numerically, the discrete quasi-conformal map converges to the continuous real solution as the mesh size approaches to 0. We tested our algorithm on surfaces scanned from real life with different topologies. Experimental results demonstrate the generality and accuracy of our auxiliary metric method.
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- 2010
6. Optimization of Surface Registrations using Beltrami Holomorphic Flow
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Lui, L. M., Wong, T. W., Zeng, W., Gu, X. F., Thompson, P. M., Chan, T. F., and Yau, S. T.
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Mathematics - Optimization and Control ,Mathematics - Metric Geometry - Abstract
In shape analysis, finding an optimal 1-1 correspondence between surfaces within a large class of admissible bijective mappings is of great importance. Such process is called surface registration. The difficulty lies in the fact that the space of all surface diffeomorphisms is a complicated functional space, making exhaustive search for the best mapping challenging. To tackle this problem, we propose a simple representation of bijective surface maps using Beltrami coefficients (BCs), which are complex-valued functions defined on surfaces with supreme norm less than 1. Fixing any 3 points on a pair of surfaces, there is a 1-1 correspondence between the set of surface diffeomorphisms between them and the set of BCs. Hence, every bijective surface map can be represented by a unique BC. Conversely, given a BC, we can reconstruct the unique surface map associated to it using the Beltrami Holomorphic flow (BHF) method. Using BCs to represent surface maps is advantageous because it is a much simpler functional space, which captures many essential features of a surface map. By adjusting BCs, we equivalently adjust surface diffeomorphisms to obtain the optimal map with desired properties. More specifically, BHF gives us the variation of the associated map under the variation of BC. Using this, a variational problem over the space of surface diffeomorphisms can be easily reformulated into a variational problem over the space of BCs. This makes the minimization procedure much easier. More importantly, the diffeomorphic property is always preserved. We test our method on synthetic examples and real medical applications. Experimental results demonstrate the effectiveness of our proposed algorithm for surface registration.
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- 2010
7. COMPREHENSIVE STUDY OF OPTICAL, PHYSICAL, CHEMICAL, AND RADIATIVE PROPERTIES OF TOTAL COLUMNAR ATMOSPHERIC AEROSOLS OVER CHINA : An Overview of Sun–Sky Radiometer Observation Network (SONET) Measurements
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Li, Z. Q., Xu, H., Li, K. T., Li, D. H., Xie, Y. S., Li, L., Zhang, Y., Gu, X. F., Zhao, W., Tian, Q. J., Deng, R. R., Su, X. L., Huang, B., Qiao, Y. L., Cui, W. Y., Hu, Y., Gong, C. L., Wang, Y. Q., Wang, X. F., Wang, J. P., Du, W. B., Pan, Z. Q., Li, Z. Z., and Bu, D.
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- 2018
8. Cross-Comparative Analysis of GF-1 Wide Field View and Landsat-7 Enhanced Thematic Mapper Plus Data
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Wei, X.-Q., Gu, X.-F., Meng, Q.-Y., Yu, T., Jia, K., Zhan, Y.-L., and Wang, Ch.-M.
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- 2017
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9. A simple vector analysis for calculating potential habit planes of martensite
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Gu, X.-F. and Zhang, W.-Z.
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- 2013
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10. A systematic investigation of the development of the orientation relationship in an fcc/bcc system
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Gu, X.-F., Zhang, W.-Z., and Qiu, D.
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- 2011
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11. A study of a new type of deviation from the Kurdjumov –Sachs orientation relationship in face-centered-cubic/body-centered-cubic transformation system
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Meng, Y., Gu, X.-F., and Zhang, W.-Z.
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- 2010
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12. A two-dimensional analytical approach for phase transformations involving an invariant line strain
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Wu, J., Zhang, W.-Z., and Gu, X.-F.
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- 2009
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13. Secondary Coincidence Site Lattice Model for Truncated Triangular β-Mg2Sn Precipitates in a Mg-Sn-Based Alloy
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Shi, Z.-Z., Dai, F.-Z., Zhang, M., Gu, X.-F., and Zhang, W.-Z.
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- 2013
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14. Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector
- Author
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Abusleme, A, Adam, T, Ahmad, S, Aiello, S, Akram, M, Ali, N, An, F, An, G, An, Q, Andronico, G, Anfimov, N, Antonelli, V, Antoshkina, T, Asavapibhop, B, de Andre, J, Babic, A, Balantekin, A, Baldini, W, Baldoncini, M, Band, H, Barresi, A, Baussan, E, Bellato, M, Bernieri, E, Biare, D, Birkenfeld, T, Bishai, M, Blin, S, Blum, D, Blyth, S, Bordereau, C, Brigatti, A, Brugnera, R, Budano, A, Burgbacher, P, Buscemi, M, Bussino, S, Busto, J, Butorov, I, Cabrera, A, Cai, H, Cai, X, Cai, Y, Cai, Z, Cammi, A, Campeny, A, Cao, C, Cao, G, Cao, J, Caruso, R, Cerna, C, Chang, J, Chang, Y, Chen, H, Chen, P, Chen, S, Chen, X, Chen, Y, Chen, Z, Cheng, J, Cheng, Y, Cheng, Z, Chepurnov, A, Cherwinka, J, Chiarello, F, Chiesa, D, Chimenti, P, Chu, M, Chukanov, A, Chuvashova, A, Clementi, C, Clerbaux, B, Di Lorenzo, S, Corti, D, Costa, S, Dal Corso, F, Cummings, J, Dalager, O, De La Taille, C, Deng, F, Deng, J, Deng, Z, Depnering, W, Diaz, M, Ding, X, Ding, Y, Dirgantara, B, Dmitrievsky, S, Diwan, M, Dohnal, T, Donchenko, G, Dong, J, Dornic, D, Doroshkevich, E, Dove, J, Dracos, M, Druillole, F, Du, S, Dusini, S, Dvorak, M, Dwyer, D, Enqvist, T, Enzmann, H, Fabbri, A, Fajt, L, Fan, D, Fan, L, Fang, C, Fang, J, Fatkina, A, Fedoseev, D, Fekete, V, Feng, L, Feng, Q, Fiorentini, G, Ford, R, Formozov, A, Fournier, A, Franke, S, Gallo, J, Gan, H, Gao, F, Garfagnini, A, Gottel, A, Genster, C, Giammarchi, M, Giaz, A, Giudice, N, Giuliani, F, Gonchar, M, Gong, G, Gong, H, Gorchakov, O, Gornushkin, Y, Grassi, M, Grewing, C, Gromov, M, Gromov, V, Gu, M, Gu, W, Gu, X, Gu, Y, Guan, M, Guardone, N, Gul, M, Guo, C, Guo, J, Guo, L, Guo, W, Guo, X, Guo, Y, Guo, Z, Haacke, M, Hackenburg, R, Hackspacher, P, Hagner, C, Han, R, Han, Y, Hans, S, He, M, He, W, Heeger, K, Heinz, T, Heng, Y, Herrera, R, Higuera, A, Hong, D, Hor, Y, Hou, S, Hsiung, Y, Hu, B, Hu, H, Hu, J, Hu, S, Hu, T, Hu, Z, Huang, C, Huang, G, Huang, H, Huang, Q, Huang, W, Huang, X, Huang, Y, Huber, P, Hui, J, Huo, L, Huo, W, Huss, C, Hussain, S, Insolia, A, Ioannisian, A, Ioannisyan, D, Isocrate, R, Jaffe, D, Jen, K, Ji, X, Jia, H, Jia, J, Jian, S, Jiang, D, Jiang, X, Jin, R, Jing, X, Johnson, R, Jollet, C, Jones, D, Joutsenvaara, J, Jungthawan, S, Kalousis, L, Kampmann, P, Kang, L, Karagounis, M, Kazarian, N, Kettell, S, Khan, A, Khan, W, Khosonthongkee, K, Kinz, P, Kohn, S, Korablev, D, Kouzakov, K, Kramer, M, Krasnoperov, A, Krokhaleva, S, Krumshteyn, Z, Kruth, A, Kutovskiy, N, Kuusiniemi, P, Lachacinski, B, Lachenmaier, T, Landini, C, Langford, T, Lee, J, Lefevre, F, Lei, L, Lei, R, Leitner, R, Leung, J, Li, D, Li, F, Li, H, Li, J, Li, K, Li, M, Li, N, Li, Q, Li, R, Li, S, Li, T, Li, W, Li, X, Li, Y, Li, Z, Liang, H, Liang, J, Liebau, D, Limphirat, A, Limpijumnong, S, Lin, C, Lin, G, Lin, S, Lin, T, Lin, Y, Ling, J, Link, J, Lippi, I, Littenberg, L, Littlejohn, B, Liu, F, Liu, H, Liu, J, Liu, M, Liu, Q, Liu, R, Liu, S, Liu, X, Liu, Y, Lokhov, A, Lombardi, P, Loo, K, Lorenz, S, Lu, C, Lu, H, Lu, J, Lu, S, Lu, X, 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P., An G. P., An Q., Andronico G., Anfimov N., Antonelli V., Antoshkina T., Asavapibhop B., de Andre J. P. A. M., Babic A., Balantekin A. B., Baldini W., Baldoncini M., Band H. R., Barresi A., Baussan E., Bellato M., Bernieri E., Biare D., Birkenfeld T., Bishai M., Blin S., Blum D., Blyth S., Bordereau C., Brigatti A., Brugnera R., Budano A., Burgbacher P., Buscemi M., Bussino S., Busto J., Butorov I., Cabrera A., Cai H., Cai X., Cai Y. K., Cai Z. Y., Cammi A., Campeny A., Cao C. Y., Cao G. F., Cao J., Caruso R., Cerna C., Chang J. F., Chang Y., Chen H. S., Chen P. A., Chen P. P., Chen S. M., Chen S. J., Chen X. R., Chen Y. W., Chen Y. X., Chen Y., Chen Z., Cheng J., Cheng Y. P., Cheng Z. K., Chepurnov A., Cherwinka J. J., Chiarello F., Chiesa D., Chimenti P., Chu M. C., Chukanov A., Chuvashova A., Clementi C., Clerbaux B., Di Lorenzo S. C., Corti D., Costa S., Dal Corso F., Cummings J. P., Dalager O., De La Taille C., Deng F. S., Deng J. W., Deng Z., Deng Z. 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D., Muller A., Meng G., Mednieks I., Meng Y., Meregaglia A., Meroni E., Meyhofer D., Mezzetto M., Miller J., Miramonti L., Monforte S., Montini P., Montuschi M., Morozov N., Muralidharan P., Napolitano J., Nastasi M., Naumov D. V., Naumova E., Nemchenok I., Nikolaev A., Ning F. P., Ning Z., Nunokawa H., Oberauer L., Ochoa-Ricoux J. P., Olshevskiy A., Ortica F., Pan H. R., Paoloni A., Park J., Parkalian N., Parmeggiano S., Patton S., Payupol T., Pec V., Pedretti D., Pei Y. T., Pelliccia N., Peng A. G., Peng H. P., Peng J. C., Perrot F., Petitjean P. A., Rico L. F. P., Popov A., Poussot P., Pratumwan W., Previtali E., Pun C. S. J., Qi F. Z., Qi M., Qian S., Qian X., Qian X. H., Qiao H., Qin Z. H., Qiu S. K., Rajput M., Ranucci G., Raper N., Re A., Rebber H., Rebii A., Ren B., Ren J., Reveco C. M., Rezinko T., Ricci B., Robens M., Roche M., Rodphai N., Rohwer L., Romani A., Rosero R., Roskovec B., Roth C., Ruan X. C., Ruan X. 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X., Yu C. X., Yu C. Y., Yu H. Z., Yu M., Yu X. H., Yu Z. Y., Yuan C. Z., Yuan Y., Yuan Z. X., Yuan Z. Y., Yue B. B., Zafar N., Zambanini A., Zeng P., Zeng S., Zeng T. X., Zeng Y. D., Zhan L., Zhang C., Zhang F. Y., Zhang G. Q., Zhang H. H., Zhang H. Q., Zhang J., Zhang J. B., Zhang J. W., Zhang P., Zhang Q. M., Zhang T., Zhang X. M., Zhang X. T., Zhang Y., Zhang Y. H., Zhang Y. M., Zhang Y. P., Zhang Y. X., Zhang Y. Y., Zhang Z. J., Zhang Z. P., Zhang Z. Y., Zhao F. Y., Zhao J., Zhao R., Zhao S. J., Zhao T. C., Zheng D. Q., Zheng H., Zheng M. S., Zheng Y. H., Zhong W. R., Zhou J., Zhou L., Zhou N., Zhou S., Zhou X., Zhu J., Zhu K. J., Zhuang H. L., Zong L., and Zou J. H.
- Abstract
To maximize the light yield of the liquid scintillator (LS) for the Jiangmen Underground Neutrino Observatory (JUNO), a 20 t LS sample was produced in a pilot plant at Daya Bay. The optical properties of the new LS in various compositions were studied by replacing the gadolinium-loaded LS in one antineutrino detector. The concentrations of the fluor, PPO, and the wavelength shifter, bis-MSB, were increased in 12 steps from 0.5 g/L and <0.01 mg/L to 4 g/L and 13 mg/L, respectively. The numbers of total detected photoelectrons suggest that, with the optically purified solvent, the bis-MSB concentration does not need to be more than 4 mg/L. To bridge the one order of magnitude in the detector size difference between Daya Bay and JUNO, the Daya Bay data were used to tune the parameters of a newly developed optical model. Then, the model and tuned parameters were used in the JUNO simulation. This enabled to determine the optimal composition for the JUNO LS: purified solvent LAB with 2.5 g/L PPO, and 1 to 4 mg/L bis-MSB.
- Published
- 2021
15. Synthesis, crystal structure, and magnetic properties of 2D coordination polymer “[Mn(PDB)(H2O)2] · H2O” n
- Author
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Sun, Y. G., Gu, X. F., Ding, F., Gao, E. J., and Zhang, W. Z.
- Published
- 2009
- Full Text
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16. Diagnosis, treatment, follow-up and gene mutation analysis in four Chinese children with biotinidase deficiency
- Author
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Ye, J., Wang, T., Han, L. S., Qiu, W. J., Zhang, H. W., Zhang, Y. F., Gao, X. L., Wang, Y., and Gu, X. F.
- Published
- 2009
- Full Text
- View/download PDF
17. Molecular mapping and candidate gene analysis for yellow fruit flesh in cucumber
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Lu, H. W., Miao, H., Tian, G. L., Wehner, T. C., Gu, X. F., and Zhang, S. P.
- Published
- 2015
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18. Study on the interaction of a palladium complex with DNA
- Author
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Gao, E. J., Yin, H. X., Zhu, M. C., Sun, Y. G., Gu, X. F., Wu, Q., and Ren, L. X.
- Published
- 2008
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- View/download PDF
19. Agrobacterium-mediated transformation of the winter jujube (Zizyphus jujuba Mill.)
- Author
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Gu, X. F., Meng, H., Qi, G., and Zhang, J. R.
- Published
- 2008
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20. Zigzag-shaped supramolecular networks formed via hydrogen bonding. Crystal structures, DNA binding, and cytotoxic activity of a new palladium(II) complex
- Author
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Gao, E. J., Yin, H. X., Zhang, W. Z., Wang, K. H., Gu, X. F., Zhu, M. C., Wu, Q., Liu, L., and Sun, Y. G.
- Published
- 2008
- Full Text
- View/download PDF
21. Effects of Phenylalanine and its Metabolites on Cytoplasmic Free Calcium in Cortical Neurons
- Author
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Yu, Y. G., Tang, F. G., Pan, J., and Gu, X. F.
- Published
- 2007
- Full Text
- View/download PDF
22. Selective screening for inborn errors of metabolism on clinical patients using tandem mass spectrometry in China: A four-year report
- Author
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Han, L. S., Ye, J., Qiu, W. J., Gao, X. L., Wang, Y., and Gu, X. F.
- Published
- 2007
- Full Text
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23. Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector
- Author
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Bay, Daya, collaborations, JUNO, Abusleme, A., Adam, T., Ahmad, S., Aiello, S., Akram, M., Ali, N., An, F. P., An, G. P., An, Q., Andronico, G., Anfimov, N., Antonelli, V., Antoshkina, T., Asavapibhop, B., de André, J. P. A. M., Babic, A., Balantekin, A. B., Baldini, W., Baldoncini, M., Band, H. R., Barresi, A., Baussan, E., Bellato, M., Bernieri, E., Biare, D., Birkenfeld, T., Bishai, M., Blin, S., Blum, D., Blyth, S., Bordereau, C., Brigatti, A., Brugnera, R., Budano, A., Burgbacher, P., Buscemi, M., Bussino, S., Busto, J., Butorov, I., Cabrera, A., Cai, H., Cai, X., Cai, Y. K., Cai, Z. Y., Cammi, A., Campeny, A., Cao, C. Y., Cao, G. F., Cao, J., Caruso, R., Cerna, C., Chakaberia, I., Chang, J. F., Chang, Y., Chen, H. S., Chen, P. A., Chen, P. P., Chen, S. M., Chen, S. J., Chen, X. R., Chen, Y. W., Chen, Y. X., Chen, Y., Chen, Z., Cheng, J., Cheng, Y. P., Cheng, Z. K., Chepurnov, A., Cherwinka, J. J., Chiarello, F., Chiesa, D., Chimenti, P., Chu, M. C., Chukanov, A., Chuvashova, A., Clementi, ., Clerbaux, B., Di Lorenzo, S. Conforti, Corti, D., Costa, S., Corso, F. D., Cummings, J. P., Dalager, O., De La Taille, C., Deng, F. S., Deng, J. W., Deng, Z., Deng, Z. Y., Depnering, W., Diaz, M., Ding, X. F., Ding, Y. Y., Dirgantara, B., Dmitrievsky, S., Diwan, M. V., Dohnal, T., Donchenko, G., Dong, J. M., Dornic, D., Doroshkevich, E., Dove, J., Dracos, M., Druillole, F., Du, S. X., Dusini, S., Dvorak, M., Dwyer, D. A., Enqvist, T., Enzmann, H., Fabbri, A., Fajt, L., Fan, D. H., Fan, L., Fang, C., Fang, J., Fatkina, A., Fedoseev, D., Fekete, V., Feng, L. C., Feng, Q. C., Fiorentini, G., Ford, R., Formozov, A., Fournier, A., Franke, S., Gallo, J. P., Gan, H. N., Gao, F., Garfagnini, A., Göttel, A., Genster, C., Giammarchi, M., Giaz, A., Giudice, N., Giuliani, F., Gonchar, M., Gong, G. H., Gong, H., Gorchakov, O., Gornushkin, Y., Grassi, M., Grewing, C., Gromov, M., Gromov, V., Gu, M. H., Gu, W. Q., Gu, X. F., Gu, Y., Guan, M. Y., Guardone, N., Gul, M., Guo, C., Guo, J. Y., Guo, L., Guo, W. L., Guo, X. H., Guo, Y. H., Guo, Z., Haacke, M., Hackenburg, R. W., Hackspacher, P., Hagner, C., Han, R., Han, Y., Hans, S., He, M., He, W., Heeger, K. M., Heinz, T., Heng, Y. K., Herrera, R., Higuera, A., Hong, D. J., Hor, Y. K., Hou, S. J., Hsiung, Y. B., Hu, B. Z., Hu, H., Hu, J. R., Hu, J., Hu, S. Y., Hu, T., Hu, Z. J., Huang, C. H., Huang, G. H., Huang, H. X., Huang, Q. H., Huang, W. H., Huang, X. T., Huang, Y. B., Huber, P., Hui, J. Q., Huo, L., Huo, W. J., Huss, C., Hussain, S., Insolia, A., Ioannisian, A., Ioannisyan, D., Isocrate, R., Jaffe, D. E., Jen, K. L., Ji, X. L., Ji, X. P., Ji, X. Z., Jia, H. H., Jia, J. J., Jian, S. Y., Jiang, D., Jiang, X. S., Jin, R. Y., Jing, X. P., Johnson, R. A., Jollet, C., Jones, D., Joutsenvaara, J., Jungthawan, S., Kalousis, L., Kampmann, P., Kang, L., Karagounis, M., Kazarian, N., Kettell, S. H., Khan, A., Khan, W., Khosonthongkee, K., Kinz, P., Kohn, S., Korablev, D., Kouzakov, K., Kramer, M., Krasnoperov, A., Krokhaleva, S., Krumshteyn, Z., Kruth, A., Kutovskiy, N., Kuusiniemi, P., Lachacinski, B., Lachenmaier, T., Langford, T. J., Lee, J., Lee, J. H. C., Lefevre, F., Lei, L., Lei, R., Leitner, R., Leung, J., Li, C., Li, D. M., Li, F., Li, H. T., Li, H. L., Li, J., Li, J. J., Li, J. Q., Li, K. J., Li, M. Z., Li, N., Li, Q. J., Li, R. H., Li, S. C., Li, S. F., Li, S. J., Li, T., Li, W. D., Li, W. G., Li, X. M., Li, X. N., Li, X. L., Li, X. Q., Li, Y., Li, Y. F., Li, Z. B., Li, Z. Y., Liang, H., Liang, J. J., Liebau, D., Limphirat, A., Limpijumnong, S., Lin, C. J., Lin, G. L., Lin, S. X., Lin, T., Lin, Y. H., Ling, J. J., Link, J. M., Lippi, I., Littenberg, L., Littlejohn, B. R., Liu, F., Liu, H., Liu, H. B., Liu, H. D., Liu, H. J., Liu, H. T., Liu, J. C., Liu, J. L., Liu, M., Liu, Q., Liu, R. X., Liu, S. Y., Liu, S. B., Liu, S. L., Liu, X. W., Liu, Y., Lokhov, A., Lombardi, P., Loo, K., Lorenz, S., Lu, C., Lu, H. Q., Lu, J. B., Lu, J. G., Lu, S. X., Lu, X. X., Lubsandorzhiev, B., Lubsandorzhiev, S., Ludhova, L., Luk, K. B., Luo, F. J., Luo, G., Luo, P. W., Luo, S., Luo, W. M., Lyashuk, V., Ma, Q. M., Ma, S., Ma, X. B., Ma, X. Y., Ma, Y. Q., Malyshkin, Y., Mantovani, F., Mao, Y. J., Mari, S. M., Marini, F., Marium, S., Marshall, C., Martellini, C., Martin-Chassard, G., Caicedo, D. A. Martinez, Martini, A., Martino, J., Mayilyan, D., McDonald, K. T., McKeown, R. D., Müller, A., Meng, G., Meng, Y., Meregaglia, A., Meroni, E., Meyhöfer, D., Mezzetto, M., Miller, J., Miramonti, L., Monforte, S., Montini, P., Montuschi, M., Morozov, N., Muralidharan, P., Napolitano, J., Nastasi, M., Naumov, D. V., Naumova, E., Nemchenok, I., Nikolaev, A., Ning, F. P., Ning, Z., Nunokawa, H., Oberauer, L., Ochoa-Ricoux, J. P., Olshevskiy, A., Ortica, F., Pan, H. 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J., Shutov, V., Sidorenkov, A., Simkovic, F., Sirignano, C., Siripak, J., Sisti, M., Slupecki, M., Smirnov, M., Smirnov, O., Sogo-Bezerra, T., Songwadhana, J., Soonthornthum, B., Sotnikov, A., Sramek, O., Sreethawong, W., Stahl, A., Stanco, L., Stankevich, K., Stefanik, D., Steiger, H., Steiner, H., Steinmann, J., Stender, M., Strati, V., Studenikin, A., Sun, G. X., Sun, L. T., Sun, J. L., Sun, S. F., Sun, X. L., Sun, Y. J., Sun, Y. Z., Suwonjandee, N., Szelezniak, M., Tang, J., Tang, Q., Tang, X., Tietzsch, A., Tkachev, I., Tmej, T., Treskov, K., Troni, G., Trzaska, W., Tse, W. -H., Tull, C. E., Tuve, C., van Waasen, S., Boom, J. Vanden, Vassilopoulos, N., Vedin, V., Verde, G., Vialkov, M., Viaud, B., Viren, B., Volpe, C., Vorobel, V., Votano, L., Walker, P., Wang, C., Wang, C. H., Wang, E., Wang, G. L., Wang, J., Wang, K. Y., Wang, L., Wang, M. F., Wang, M., Wang, N. Y., Wang, R. G., Wang, S. G., Wang, W., Wang, W. S., Wang, X., Wang, X. Y., Wang, Y., Wang, Y. F., Wang, Y. G., Wang, Y. M., Wang, Y. Q., Wang, Z., Wang, Z. M., Wang, Z. Y., Watcharangkool, A., Wei, H. Y., Wei, L. H., Wei, W., Wei, Y. D., Wen, L. J., Whisnant, K., White, C. G., Wiebusch, C., Wong, S. C. F., Wong, H. L. H., Wonsak, B., Worcester, E., Wu, C. H., Wu, D. R., Wu, F. L., Wu, Q., Wu, W. J., Wu, Z., Wurm, M., Wurtz, J., Wysotzki, C., Xi, Y. F., Xia, D. M., Xie, Y. G., Xie, Z. Q., Xing, Z. Z., Xu, D. L., Xu, F. R., Xu, H. K., Xu, J. L., Xu, J., Xu, M. H., Xu, T., Xu, Y., Xue, T., Yan, B. J., Yan, X. B., Yan, Y. P., Yang, A. B., Yang, C. G., Yang, H., Yang, J., Yang, L., Yang, X. Y., Yang, Y. F., Yang, Y. Z., Yao, H. F., Yasin, Z., Ye, J. X., Ye, M., Yegin, U., Yeh, M., Yermia, F., Yi, P. H., You, Z. Y., Young, B. L., Yu, B. X., Yu, C. X., Yu, C. Y., Yu, H. Z., Yu, M., Yu, X. H., Yu, Z. Y., Yuan, C. Z., Yuan, Y., Yuan, Z. X., Yuan, Z. Y., Yue, B. B., Zafar, N., Zambanini, A., Zeng, P., Zeng, S., Zeng, T. X., Zeng, Y. D., Zhan, L., Zhang, C., Zhang, F. Y., Zhang, G. Q., Zhang, H. H., Zhang, H. Q., Zhang, J., Zhang, J. B., Zhang, J. W., Zhang, P., Zhang, Q. M., Zhang, T., Zhang, X. M., Zhang, X. T., Zhang, Y., Zhang, Y. H., Zhang, Y. M., Zhang, Y. P., Zhang, Y. X., Zhang, Y. Y., Zhang, Z. J., Zhang, Z. P., Zhang, Z. Y., Zhao, F. Y., Zhao, J., Zhao, R., Zhao, S. J., Zhao, T. C., Zheng, D. Q., Zheng, H., Zheng, M. S., Zheng, Y. H., Zhong, W. R., Zhou, J., Zhou, L., Zhou, N., Zhou, S., Zhou, X., Zhu, J., Zhu, K. J., Zhuang, H. L., Zong, L., Zou, J. H., Abusleme A., Adam T., Ahmad S., Aiello S., Akram M., Ali N., An F.P., An G.P., An Q., Andronico G., Anfimov N., Antonelli V., Antoshkina T., Asavapibhop B., de Andre J.P.A.M., Babic A., Balantekin A.B., Baldini W., Baldoncini M., Band H.R., Barresi A., Baussan E., Bellato M., Bernieri E., Biare D., Birkenfeld T., Bishai M., Blin S., Blum D., Blyth S., Bordereau C., Brigatti A., Brugnera R., Budano A., Burgbacher P., Buscemi M., Bussino S., Busto J., Butorov I., Cabrera A., Cai H., Cai X., Cai Y.K., Cai Z.Y., Cammi A., Campeny A., Cao C.Y., Cao G.F., Cao J., Caruso R., Cerna C., Chang J.F., Chang Y., Chen H.S., Chen P.A., Chen P.P., Chen S.M., Chen S.J., Chen X.R., Chen Y.W., Chen Y.X., Chen Y., Chen Z., Cheng J., Cheng Y.P., Cheng Z.K., Chepurnov A., Cherwinka J.J., Chiarello F., Chiesa D., Chimenti P., Chu M.C., Chukanov A., Chuvashova A., Clementi C., Clerbaux B., Di Lorenzo S.C., Corti D., Costa S., Dal Corso F., Cummings J.P., Dalager O., De La Taille C., Deng F.S., Deng J.W., Deng Z., Deng Z.Y., Depnering W., Diaz M., Ding X.F., Ding Y.Y., Dirgantara B., Dmitrievsky S., Diwan M.V., Dohnal T., Donchenko G., Dong J.M., Dornic D., Doroshkevich E., Dove J., Dracos M., Druillole F., Du S.X., Dusini S., Dvorak M., Dwyer D.A., Enqvist T., Enzmann H., Fabbri A., Fajt L., Fan D.H., Fan L., Fang C., Fang J., Fatkina A., Fedoseev D., Fekete V., Feng L.C., Feng Q.C., Fiorentini G., Ford R., Formozov A., Fournier A., Franke S., Gallo J.P., Gan H.N., Gao F., Garfagnini A., Gottel A., Genster C., Giammarchi M., Giaz A., Giudice N., Giuliani F., Gonchar M., Gong G.H., Gong H., Gorchakov O., Gornushkin Y., Grassi M., Grewing C., Gromov M., Gromov V., Gu M.H., Gu W.Q., Gu X.F., Gu Y., Guan M.Y., Guardone N., Gul M., Guo C., Guo J.Y., Guo L., Guo W.L., Guo X.H., Guo Y.H., Guo Z., Haacke M., Hackenburg R.W., Hackspacher P., Hagner C., Han R., Han Y., Hans S., He M., He W., Heeger K.M., Heinz T., Heng Y.K., Herrera R., Higuera A., Hong D.J., Hor Y.K., Hou S.J., Hsiung Y.B., Hu B.Z., Hu H., Hu J.R., Hu J., Hu S.Y., Hu T., Hu Z.J., Huang C.H., Huang G.H., Huang H.X., Huang Q.H., Huang W.H., Huang X.T., Huang Y.B., Huber P., Hui J.Q., Huo L., Huo W.J., Huss C., Hussain S., Insolia A., Ioannisian A., Ioannisyan D., Isocrate R., Jaffe D.E., Jen K.L., Ji X.L., Ji X.P., Ji X.Z., Jia H.H., Jia J.J., Jian S.Y., Jiang D., Jiang X.S., Jin R.Y., Jing X.P., Johnson R.A., Jollet C., Jones D., Joutsenvaara J., Jungthawan S., Kalousis L., Kampmann P., Kang L., Karagounis M., Kazarian N., Kettell S.H., Khan A., Khan W., Khosonthongkee K., Kinz P., Kohn S., Korablev D., Kouzakov K., Kramer M., Krasnoperov A., Krokhaleva S., Krumshteyn Z., Kruth A., Kutovskiy N., Kuusiniemi P., Lachacinski B., Lachenmaier T., Landini C., Langford T.J., Lee J., Lee J.H.C., Lefevre F., Lei L., Lei R., Leitner R., Leung J., Li D.M., Li F., Li H.T., Li H.L., Li J., Li J.J., Li J.Q., Li K.J., Li M.Z., Li N., Li Q.J., Li R.H., Li S.C., Li S.F., Li S.J., Li T., Li W.D., Li W.G., Li X.M., Li X.N., Li X.L., Li X.Q., Li Y., Li Y.F., Li Z.B., Li Z.Y., Liang H., Liang J.J., Liebau D., Limphirat A., Limpijumnong S., Lin C.J., Lin G.L., Lin S.X., Lin T., Lin Y.H., Ling J.J., Link J.M., Lippi I., Littenberg L., Littlejohn B.R., Liu F., Liu H., Liu H.B., Liu H.D., Liu H.J., Liu H.T., Liu J.C., Liu J.L., Liu M., Liu Q., Liu R.X., Liu S.Y., Liu S.B., Liu S.L., Liu X.W., Liu Y., Lokhov A., Lombardi P., Loo K., Lorenz S., Lu C., Lu H.Q., Lu J.B., Lu J.G., Lu S.X., Lu X.X., Lubsandorzhiev B., Lubsandorzhiev S., Ludhova L., Luk K.B., Luo F.J., Luo G., Luo P.W., Luo S., Luo W.M., Lyashuk V., Ma Q.M., Ma S., Ma X.B., Ma X.Y., Ma Y.Q., Malyshkin Y., Mantovani F., Mao Y.J., Mari S.M., Marini F., Marium S., Marshall C., Martellini C., Martin-Chassard G., Caicedo D.A.M., Martini A., Martino J., Mayilyan D., McDonald K.T., McKeown R.D., Muller A., Meng G., Mednieks I., Meng Y., Meregaglia A., Meroni E., Meyhofer D., Mezzetto M., Miller J., Miramonti L., Monforte S., Montini P., Montuschi M., Morozov N., Muralidharan P., Napolitano J., Nastasi M., Naumov D.V., Naumova E., Nemchenok I., Nikolaev A., Ning F.P., Ning Z., Nunokawa H., Oberauer L., Ochoa-Ricoux J.P., Olshevskiy A., Ortica F., Pan H.R., Paoloni A., Park J., Parkalian N., Parmeggiano S., Patton S., Payupol T., Pec V., Pedretti D., Pei Y.T., Pelliccia N., Peng A.G., Peng H.P., Peng J.C., Perrot F., Petitjean P.A., Rico L.F.P., Popov A., Poussot P., Pratumwan W., Previtali E., Pun C.S.J., Qi F.Z., Qi M., Qian S., Qian X., Qian X.H., Qiao H., Qin Z.H., Qiu S.K., Rajput M., Ranucci G., Raper N., Re A., Rebber H., Rebii A., Ren B., Ren J., Reveco C.M., Rezinko T., Ricci B., Robens M., Roche M., Rodphai N., Rohwer L., Romani A., Rosero R., Roskovec B., Roth C., Ruan X.C., Ruan X.D., Rujirawat S., Rybnikov A., Sadovsky A., Saggese P., Salamanna G., Sangka A., Sanguansak N., Sawangwit U., Sawatzki J., Sawy F., Schever M., Schuler J., Schwab C., Schweizer K., Selivanov D., Selyunin A., Serafini A., Settanta G., Settimo M., Shahzad M., Shi G., Shi J.Y., Shi Y.J., Shutov V., Sidorenkov A., Simkovic F., Sirignano C., Siripak J., Sisti M., Slupecki M., Smirnov M., Smirnov O., Sogo-Bezerra T., Songwadhana J., Soonthornthum B., Sotnikov A., Sramek O., Sreethawong W., Stahl A., Stanco L., Stankevich K., Stefanik D., Steiger H., Steiner H., Steinmann J., Stender M., Strati V., Studenikin A., Sun G.X., Sun L.T., Sun J.L., Sun S.F., Sun X.L., Sun Y.J., Sun Y.Z., Suwonjandee N., Szelezniak M., Tang J., Tang Q., Tang X., Tietzsch A., Tkachev I., Tmej T., Treskov K., Troni G., Trzaska W., Tse W.-H., Tull C.E., Tuve C., van Waasen S., Boom J.V.D., Vassilopoulos N., Vedin V., Verde G., Vialkov M., Viaud B., Viren B., Volpe C., Vorobel V., Votano L., Walker P., Wang C., Wang C.H., Wang E., Wang G.L., Wang J., Wang K.Y., Wang L., Wang M.F., Wang M., Wang N.Y., Wang R.G., Wang S.G., Wang W., Wang W.S., Wang X., Wang X.Y., Wang Y., Wang Y.F., Wang Y.G., Wang Y.M., Wang Y.Q., Wang Z., Wang Z.M., Wang Z.Y., Watcharangkool A., Wei H.Y., Wei L.H., Wei W., Wei Y.D., Wen L.J., Whisnant K., White C.G., Wiebusch C., Wong S.C.F., Wong H.L.H., Wonsak B., Worcester E., Wu C.H., Wu D.R., Wu F.L., Wu Q., Wu W.J., Wu Z., Wurm M., Wurtz J., Wysotzki C., Xi Y.F., Xia D.M., Xie Y.G., Xie Z.Q., Xing Z.Z., Xu D.L., Xu F.R., Xu H.K., Xu J.L., Xu J., Xu M.H., Xu T., Xu Y., Xue T., Yan B.J., Yan X.B., Yan Y.P., Yang A.B., Yang C.G., Yang H., Yang J., Yang L., Yang X.Y., Yang Y.F., Yang Y.Z., Yao H.F., Yasin Z., Ye J.X., Ye M., Yegin U., Yeh M., Yermia F., Yi P.H., You Z.Y., Young B.L., Yu B.X., Yu C.X., Yu C.Y., Yu H.Z., Yu M., Yu X.H., Yu Z.Y., Yuan C.Z., Yuan Y., Yuan Z.X., Yuan Z.Y., Yue B.B., Zafar N., Zambanini A., Zeng P., Zeng S., Zeng T.X., Zeng Y.D., Zhan L., Zhang C., Zhang F.Y., Zhang G.Q., Zhang H.H., Zhang H.Q., Zhang J., Zhang J.B., Zhang J.W., Zhang P., Zhang Q.M., Zhang T., Zhang X.M., Zhang X.T., Zhang Y., Zhang Y.H., Zhang Y.M., Zhang Y.P., Zhang Y.X., Zhang Y.Y., Zhang Z.J., Zhang Z.P., Zhang Z.Y., Zhao F.Y., Zhao J., Zhao R., Zhao S.J., Zhao T.C., Zheng D.Q., Zheng H., Zheng M.S., Zheng Y.H., Zhong W.R., Zhou J., Zhou L., Zhou N., Zhou S., Zhou X., Zhu J., Zhu K.J., Zhuang H.L., Zong L., Zou J.H., Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), Université Sciences et Technologies - Bordeaux 1 (UB)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique subatomique et des technologies associées (SUBATECH), Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-IMT Atlantique (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT), JUNO, Daya Bay, Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université de Nantes (UN)-Université de Nantes (UN)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Abusleme, A, Adam, T, Ahmad, S, Aiello, S, Akram, M, Ali, N, An, F, An, G, An, Q, Andronico, G, Anfimov, N, Antonelli, V, Antoshkina, T, Asavapibhop, B, de Andre, J, Babic, A, Balantekin, A, Baldini, W, Baldoncini, M, Band, H, Barresi, A, Baussan, E, Bellato, M, Bernieri, E, Biare, D, Birkenfeld, T, Bishai, M, Blin, S, Blum, D, Blyth, S, Bordereau, C, Brigatti, A, Brugnera, R, Budano, A, Burgbacher, P, Buscemi, M, Bussino, S, Busto, J, Butorov, I, Cabrera, A, Cai, H, Cai, X, Cai, Y, Cai, Z, Cammi, A, Campeny, A, Cao, C, Cao, G, Cao, J, Caruso, R, Cerna, C, Chang, J, Chang, Y, Chen, H, Chen, P, Chen, S, Chen, X, Chen, Y, Chen, Z, Cheng, J, Cheng, Y, Cheng, Z, Chepurnov, A, Cherwinka, J, Chiarello, F, Chiesa, D, Chimenti, P, Chu, M, Chukanov, A, Chuvashova, A, Clementi, C, Clerbaux, B, Di Lorenzo, S, Corti, D, Costa, S, Dal Corso, F, Cummings, J, Dalager, O, De La Taille, C, Deng, F, Deng, J, Deng, Z, Depnering, W, Diaz, M, Ding, X, Ding, Y, Dirgantara, B, Dmitrievsky, S, Diwan, M, Dohnal, T, Donchenko, G, Dong, J, Dornic, D, Doroshkevich, E, Dove, J, Dracos, M, Druillole, F, Du, S, Dusini, S, Dvorak, M, Dwyer, D, Enqvist, T, Enzmann, H, Fabbri, A, Fajt, L, Fan, D, Fan, L, Fang, C, Fang, J, Fatkina, A, Fedoseev, D, Fekete, V, Feng, L, Feng, Q, Fiorentini, G, Ford, R, Formozov, A, Fournier, A, Franke, S, Gallo, J, Gan, H, Gao, F, Garfagnini, A, Gottel, A, Genster, C, Giammarchi, M, Giaz, A, Giudice, N, Giuliani, F, Gonchar, M, Gong, G, Gong, H, Gorchakov, O, Gornushkin, Y, Grassi, M, Grewing, C, Gromov, M, Gromov, V, Gu, M, Gu, W, Gu, X, Gu, Y, Guan, M, Guardone, N, Gul, M, Guo, C, Guo, J, Guo, L, Guo, W, Guo, X, Guo, Y, Guo, Z, Haacke, M, Hackenburg, R, Hackspacher, P, Hagner, C, Han, R, Han, Y, Hans, S, He, M, He, W, Heeger, K, Heinz, T, Heng, Y, Herrera, R, Higuera, A, Hong, D, Hor, Y, Hou, S, Hsiung, Y, Hu, B, Hu, H, Hu, J, Hu, S, Hu, T, Hu, Z, Huang, C, Huang, G, Huang, H, Huang, Q, Huang, W, Huang, X, Huang, Y, Huber, P, Hui, J, Huo, L, Huo, W, Huss, C, Hussain, S, Insolia, A, Ioannisian, A, Ioannisyan, D, Isocrate, R, Jaffe, D, Jen, K, Ji, X, Jia, H, Jia, J, Jian, S, Jiang, D, Jiang, X, Jin, R, Jing, X, Johnson, R, Jollet, C, Jones, D, Joutsenvaara, J, Jungthawan, S, Kalousis, L, Kampmann, P, Kang, L, Karagounis, M, Kazarian, N, Kettell, S, Khan, A, Khan, W, Khosonthongkee, K, Kinz, P, Kohn, S, Korablev, D, Kouzakov, K, Kramer, M, Krasnoperov, A, Krokhaleva, S, Krumshteyn, Z, Kruth, A, Kutovskiy, N, Kuusiniemi, P, Lachacinski, B, Lachenmaier, T, Landini, C, Langford, T, Lee, J, Lefevre, F, Lei, L, Lei, R, Leitner, R, Leung, J, Li, D, Li, F, Li, H, Li, J, Li, K, Li, M, Li, N, Li, Q, Li, R, Li, S, Li, T, Li, W, Li, X, Li, Y, Li, Z, Liang, H, Liang, J, Liebau, D, Limphirat, A, Limpijumnong, S, Lin, C, Lin, G, Lin, S, Lin, T, Lin, Y, Ling, J, Link, J, Lippi, I, Littenberg, L, Littlejohn, B, Liu, F, Liu, H, Liu, J, Liu, M, Liu, Q, Liu, R, Liu, S, Liu, X, Liu, Y, Lokhov, A, Lombardi, P, Loo, K, Lorenz, S, Lu, C, Lu, H, Lu, J, Lu, S, Lu, X, Lubsandorzhiev, B, Lubsandorzhiev, S, Ludhova, L, Luk, K, Luo, F, Luo, G, Luo, P, Luo, S, Luo, W, Lyashuk, V, Ma, Q, Ma, S, Ma, X, Ma, Y, Malyshkin, Y, Mantovani, F, Mao, Y, Mari, S, Marini, F, Marium, S, Marshall, C, Martellini, C, Martin-Chassard, G, Caicedo, D, Martini, A, Martino, J, Mayilyan, D, Mcdonald, K, Mckeown, R, Muller, A, Meng, G, Mednieks, I, Meng, Y, Meregaglia, A, Meroni, E, Meyhofer, D, Mezzetto, M, Miller, J, Miramonti, L, Monforte, S, Montini, P, Montuschi, M, Morozov, N, Muralidharan, P, Napolitano, J, Nastasi, M, Naumov, D, Naumova, E, Nemchenok, I, Nikolaev, A, Ning, F, Ning, Z, Nunokawa, H, Oberauer, L, Ochoa-Ricoux, J, Olshevskiy, A, Ortica, F, Pan, H, Paoloni, A, Park, J, 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G., Wang, Y. M., Wang, Y. Q., Wang, Z., Wang, Z. M., Wang, Z. Y., Watcharangkool, A., Wei, H. Y., Wei, L. H., Wei, W., Wei, Y. D., Wen, L. J., Whisnant, K., White, C. G., Wiebusch, C., Wong, S. C. F., Wong, H. L. H., Wonsak, B., Worcester, E., Wu, C. H., Wu, D. R., Wu, F. L., Wu, Q., Wu, W. J., Wu, Z., Wurm, M., Wurtz, J., Wysotzki, C., Xi, Y. F., Xia, D. M., Xie, Y. G., Xie, Z. Q., Xing, Z. Z., Xu, D. L., Xu, F. R., Xu, H. K., Xu, J. L., Xu, J., Xu, M. H., Xu, T., Xu, Y., Xue, T., Yan, B. J., Yan, X. B., Yan, Y. P., Yang, A. B., Yang, C. G., Yang, H., Yang, J., Yang, L., Yang, X. Y., Yang, Y. F., Yang, Y. Z., Yao, H. F., Yasin, Z., Ye, J. X., Ye, M., Yegin, U., Yeh, M., Yermia, F., Yi, P. H., You, Z. Y., Young, B. L., Yu, B. X., Yu, C. X., Yu, C. Y., Yu, H. Z., Yu, M., Yu, X. H., Yu, Z. Y., Yuan, C. Z., Yuan, Y., Yuan, Z. X., Yuan, Z. Y., Yue, B. B., Zafar, N., Zambanini, A., Zeng, P., Zeng, S., Zeng, T. X., Zeng, Y. D., Zhan, L., Zhang, C., Zhang, F. Y., Zhang, G. Q., Zhang, H. H., Zhang, H. Q., Zhang, J., Zhang, J. B., Zhang, J. W., Zhang, P., Zhang, Q. M., Zhang, T., Zhang, X. M., Zhang, X. T., Zhang, Y., Zhang, Y. H., Zhang, Y. M., Zhang, Y. P., Zhang, Y. X., Zhang, Y. Y., Zhang, Z. J., Zhang, Z. P., Zhang, Z. Y., Zhao, F. Y., Zhao, J., Zhao, R., Zhao, S. J., Zhao, T. C., Zheng, D. Q., Zheng, H., Zheng, M. S., Zheng, Y. H., Zhong, W. R., Zhou, J., Zhou, L., Zhou, N., Zhou, S., Zhou, X., Zhu, J., Zhu, K. J., Zhuang, H. L., Zong, L., and Zou, J. H.
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organic compounds: admixture ,Nuclear and High Energy Physics ,Physics - Instrumentation and Detectors ,Liquid scintillator ,scintillation counter: liquid ,Analytical chemistry ,FOS: Physical sciences ,model: optical ,Scintillator ,Wavelength shifter ,antineutrino: detector ,01 natural sciences ,NO ,High Energy Physics - Experiment ,wavelength shifter ,High Energy Physics - Experiment (hep-ex) ,PE2_2 ,Daya Bay ,Neutrino ,0103 physical sciences ,fluorine: admixture ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,ddc:530 ,neutrino oscillation ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,010306 general physics ,Instrumentation ,Jiangmen Underground Neutrino Observatory ,Physics ,JUNO ,010308 nuclear & particles physics ,Settore FIS/01 - Fisica Sperimentale ,Detector ,Light yield ,Instrumentation and Detectors (physics.ins-det) ,Yield (chemistry) ,Scintillation counter ,Composition (visual arts) ,photon: yield - Abstract
To maximize the light yield of the liquid scintillator (LS) for the Jiangmen Underground Neutrino Observatory (JUNO), a 20 t LS sample was produced in a pilot plant at Daya Bay. The optical properties of the new LS in various compositions were studied by replacing the gadolinium-loaded LS in one antineutrino detector. The concentrations of the fluor, PPO, and the wavelength shifter, bis-MSB, were increased in 12 steps from 0.5 g/L and, 13 pages, 8 figures
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- 2021
24. Partial melting of ultrahigh-pressure metamorphic rocks at convergent continental margins: Evidences, melt compositions and physical effects
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Deng L.-P.[1], Liu Y.-C.[1], Gu X.-F.[1], Groppo C.[2, and Rolfo F.[2
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010504 meteorology & atmospheric sciences ,Geochemistry ,Metamorphism ,Partial melting ,010502 geochemistry & geophysics ,01 natural sciences ,Petrography ,chemistry.chemical_compound ,Continental subduction-collision ,Leucosome ,Phase equilibrium modeling ,Ultrahigh-pressure metamorphism ,Earth and Planetary Sciences (all) ,Flux melting ,0105 earth and related environmental sciences ,Continental crust ,lcsh:QE1-996.5 ,Silicate ,lcsh:Geology ,chemistry ,General Earth and Planetary Sciences ,Eclogite ,ultralight-pressure metamorphism ,Geology ,Zircon - Abstract
Ultrahigh-pressure (UHP) metamorphic rocks are distinctive products of crustal deep subduction, and are mainly exposed in continental subduction-collision terranes. UHP slices of continental crust are usually involved in multistage exhumation and partial melting, which has obvious influence on the rheological features of the rocks, and thus significantly affect the dynamic behavior of subducted slices. Moreover, partial melting of UHP rocks have significant influence on element mobility and related isotope behavior within continental subduction zones, which is in turn crucial to chemical differentiation of the continental crust and to crust-mantle interaction.Partial melting can occur before, during or after the peak metamorphism of UHP rocks. Post-peak decompression melting has been better constrained by remelting experiments; however, because of multiple stages of decompression, retrogression and deformation, evidence of former melts in UHP rocks is often erased. Field evidence is among the most reliable criteria to infer partial melting. Glass and nanogranitoid inclusions are generally considered conclusive petrographic evidence. The residual assemblages after melt extraction are also significant to indicate partial melting in some cases. Besides field and petrographic evidence, bulk-rock and zircon trace-element geochemical features are also effective tools for recognizing partial melting of UHP rocks. Phase equilibrium modeling is an important petrological tool that is becoming more and more popular in P-T estimation of the evolution of metamorphic rocks; by taking into account the activity model of silicate melt, it can predict when partial melting occurred if the P-T path of a given rock is provided.UHP silicate melt is commonly leucogranitic and peraluminous in composition with high SiO2, low MgO, FeO, MnO, TiO2 and CaO, and variable K2O and Na2O contents. Mineralogy of nanogranites found in UHP rocks mainly consists of plagioclase + K-feldspar + quartz, plagioclase being commonly albite-rich. Trace element pattern of the melt is characterized by significant enrichment of large ion lithophile elements (LILE), depletion of heavy rare earth elements (HREE) and high field strength elements (HFSE), indicating garnet and rutile stability in the residual assemblage. In eclogites, significant Mg-isotope fractionation occurs between garnet and phengite; therefore, Mg isotopes may become an effective indicator for partial melting of eclogites. Keywords: Partial melting, Continental subduction-collision, Ultrahigh-pressure metamorphism, Leucosome, Phase equilibrium modeling
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- 2018
25. Efficient transformation of beet (Beta vulgaris) and production of plants with improved salt-tolerance
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Yang, A. F., Duan, X. G., Gu, X. F., Gao, F., and Zhang, J. R.
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- 2005
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26. In vitro induction of tetraploid plants from diploid Zizyphus jujuba Mill. cv. Zhanhua
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Gu, X. F., Yang, A. F., Meng, H., and Zhang, J. R.
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- 2005
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27. An efficient adventitious shoot regeneration system for Zhanhua winter jujube (Zizyphus jujuba Mill.) using leaf explants
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Gu, X. F. and Zhang, J. R.
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- 2005
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28. Sustained hyperphagia in adolescent rats that experienced neonatal maternal separation
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Ryu, V, Lee, J-H, Yoo, S B, Gu, X F, Moon, Y W, and Jahng, J W
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- 2008
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29. Fabrication and properties of SiCp/Al composites by pulsed electric current sintering
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YANG, M. J., ZHANG, D. M., GU, X. F., and ZHANG, L. M.
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- 2005
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30. New constraints on P–T–t path of high–T eclogites in the Dabie orogen, China
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Deng L.-P.[1, Liu Y.-C.[1], Groppo C.[3, Rolfo F.[3, Yang Y.[1], Gu X.-F.[1], and Wang A.-D.[2
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Dabie orogen ,High T eclogites ,Pb dating ,Phase equilibrium modeling ,PT t path ,Zircon U ,010504 meteorology & atmospheric sciences ,Continental collision ,Metamorphic rock ,Geochemistry ,Metamorphism ,Geology ,010502 geochemistry & geophysics ,Overprinting ,Anatexis ,01 natural sciences ,Dabie orogeny ,high T eclogites ,phase equilibrium modeling ,zircon U ,Geochemistry and Petrology ,Eclogite ,0105 earth and related environmental sciences ,Zircon ,Terrane - Abstract
Deciphering the P-T-t path of ultrahigh-pressure (UHP) rocks is crucial for reconstructing the evolution of continental crustal terranes involved in very deep subduction followed by exhumation. Achievieng this goal is especially challenging for UHP terranes which experienced protracted high/ultrahigh temperature (high-T/UHT) exhumation histories, because the widespread anatexis associated to retrograde re-equilibration often obliterate the evidence of UHP metamorphism. In the Dabie-Sulu orogenic belt of central-eastern China, which is the largest UHP terrane in the world, the migmatitic North Dabie complex Zone (NDZ) is the archetype of such UHP terranes experiencing a “slow and hot” exhumation. The NDZ stands out for the widespread anatexis that widely overprinted the traces of eclogite-facies metamorphism, hampering a precise reconstruction of its P-T-(t) evolution. This paper presents the results of a multidisciplinary study integrating P–T pseudosection of phase equilibrium modeling, conventional geothermometry and zircon U–Pb dating with trace element analysis applied on the high–T UHP eclogites from the NDZ. The studied eclogites underwent a multistage metamorphic evolution including post-peak granulite-facies overprinting and subsequent amphibolite-facies retrogression. P–T conditions of the granulite-facies overprinting and the amphibolite-facie retrogression have been estimated at >830 °C, 7–12 kbar and 560–880 °C, 4.3–8.9 kbar, respectively. New zircon U–Pb dating, mineral inclusion and trace element analysis, combined with modeled plagioclase modal variation by pseudosection approach, allowed constraining the ages of prograde metamorphism, eclogite-facies metamorphism, granulite-facies overprinting and amphibolite-facies retrogression of the eclogites at 247–230 Ma, 226–219 Ma, 217–212 Ma and 214–198 Ma, respectively. These results provide new P–T-t estimates and age data for the multiple metamorphic stages during continental collision, contributing to precisely reconstruct the whole P–T–t path of the NDZ.
- Published
- 2021
31. Islet cell antibodies in normal French schoolchildren
- Author
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Lévy-Marchal, C., Tichet, J., Fajardy, I., Gu, X. F., Dubois, F., and Czernichow, P.
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- 1992
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32. Molecular genetic analysis of glycogen storage disease type Ia in 26 Chinese patients
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Qiu, W. J., Gu, X. F., Ye, J., Han, L. Sh., Zhang, Y. F., and Liu, X. Q.
- Published
- 2003
33. Influences of cold rolling, recrystallization and surface effect on the transformation textures in a TA10 titanium alloy
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Yang, P, primary, Wei, Z G, additional, Gu, X F, additional, Cui, F E, additional, and Mao, W M, additional
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- 2019
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- View/download PDF
34. Intravenous guanethidine in patients with reflex sympathetic dystrophy
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Kaplan, R., Claudio, M., Kepes, E., and Gu, X. F.
- Published
- 1996
35. The 1991 AVIRIS/POLDER experiment in Camargue, France
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Baret, F, Leprieur, C, Jacquemoud, S, Carrere, V, Gu, X. F, Steven, M, Vanderbilt, V, Hanocq, J. F, Ustin, Susan L, and Rondeaux, G
- Subjects
Earth Resources And Remote Sensing - Abstract
Airborne campaigns during the eighties provided high spectral resolution data, collected with imaging instruments such as AIS, AVIRIS, FLI, CAESI, and ISM, in order to investigate the relationship with canopy biophysical characteristics. The statistical approaches used to analyze these data do not allow investigation of the causality and the applicability of the observed correlations. Further, statistical studies demonstrated the high degree of redundancy of the spectral information amongst many others. And for retrieving vegetation biophysical characteristics, few results demonstrate the real information gain attributable to the high spectral resolution capability as compared to the use of a few wide wavelength bands. With several new imaging spectrophotometers scheduled for launch during the next 10 years (MERIS, MODIS, HIRIS), progress in the description and understanding of the mechanisms that drive the spectral variation of canopy reflectance is required. Most of these new sensor systems will also have the capability to observe the target under differing view directions. The problem of the combination and the use of the synergy between both the spectral and the directional sources of canopy reflectance variations has to be addressed. Apart from the atmospheric effects, the spectral variation of the light reflected by canopies originates from the leaves, the soil or the other vegetation elements such as branches and fruits. At leaf level, both diffuse reflectance and transmittance may be simulated by simple models, although no accurate information exists on the absorption features of the biochemicals (except water) in the 900-2500nm wavelength range. Many models mimic the directional variability of canopy reflectance at a given wavelength. Combining a leaf spectral model with a canopy directional model provides a powerful tool to analyze this problem. Some of us have initiated such a study, but our approach and theory remain to be tested using canopy data with their complexity, associated experimental error, and atmospheric effects. The main objective of the 1990 POLDER/AVIRIS experiment in Camargue was to provide a consistent data set over various canopies in order to test the applicability of the theory. The experiment, part of the 1991 MAC Europe experiment, involved simultaneous data collection using two sensors: AVIRIS and POLDER which measures the bidirectional and polarization properties of the targets at 670 and 880nm wavebands.
- Published
- 1992
36. Phenylketonuria mutations in southern Chinese detected by denaturing gradient gel electrophoresis in exon 7 of PAH gene
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Gu, X. F., Zhang, M., and Chen, R. G.
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- 1995
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37. Geochronological and petrological constraints on Palaeoproterozoic granulite facies metamorphism in southeastern margin of the North China Craton
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Liu Y.-C.[1, Wang A.-D.[1], Rolfo F.[3, Groppo C.[3], Gu X.-F.[1], and Song B.[2]
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geography ,Underplating ,geography.geographical_feature_category ,Geochemistry ,Metamorphism ,Geology ,Granulite ,Craton ,Geochemistry and Petrology ,Facies ,Petrology ,Protolith ,Metamorphic facies ,HP granulite-facies metamorphism ,lower crust ,North China Craton ,Palaeoproterozoic ,U-Pb dating ,Zircon - Abstract
In the southeastern margin of the North China Craton, high-pressure (HP) granulite facies meta-basic rocks exposed as bands or lenses in the Precambrian metamorphic basement (e.g. Bengbu) and as xenoliths in Mesozoic intrusions (e.g. Jiagou) are characterized by the assemblage garnet + clinopyroxene + plagioclase + quartz + rutile +/- Ti-rich hornblende. Cathodoluminescence imaging and mineral inclusions reveal that most zircon from the three dated samples displays distinct core-mantle-rim structures. The cores show typical igneous zircon characteristics and give ages of 2.5-2.4 Ga, thus dating the protolith of the metabasites. The mantles formed at granulite facies conditions as evidenced by inclusions of the HP granulite mineral assemblage garnet + clinopyroxene + rutile + plagioclase + quartz +/- hornblende and Ti-rich biotite and yield ages of 1839 +/- 31, 1811 +/- 19 and 1800 +/- 15 Ma. An inclusion-free rim yields an age of 176 +/- 2 Ma with the lower Th/U ratio of 0.02. The geochronological and preliminary petrological data of this study suggest that the lower crust beneath the southeastern margin of the North China Craton formed at 2.5-2.4 Ga and underwent HP granulite facies metamorphism at c. 1.8 Ga. This HT-HP metamorphic event may be ascribed to large-scale crustal heating and thickening related to mantle-derived magma underplating at the base of the lower crust, as evidenced by widespread extension, rifting and related mafic magma emplacement in the North China Craton during this period. The age of 176 +/- 2 Ma most likely records the late amphibolite facies retrogression occurring during exhumation.
- Published
- 2009
38. Research Article Molecular mapping and candidate gene analysis for resistance to powdery mildew in Cucumis sativus stem.
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Liu, P N, primary, Miao, H, additional, Lu, H W, additional, Cui, J Y, additional, Tian, G L, additional, Wehner, T C, additional, Gu, X F, additional, and Zhang, S P, additional
- Published
- 2017
- Full Text
- View/download PDF
39. Characterization of crystal structure and precipitation crystallography of a new MgxAl2−xGd phase in an Mg97Al1Gd2alloy
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Gu, X.-F., primary and Furuhara, T., additional
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- 2016
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- View/download PDF
40. PTCLab: free and open-source software for calculating phase transformation crystallography
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Gu, X.-F., primary, Furuhara, T., additional, and Zhang, W.-Z., additional
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- 2016
- Full Text
- View/download PDF
41. Study on multi-parameters of thermal infrared remote sensing anomalies of the Yushu earthquake
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Lu, X., primary, Meng, Q. Y., additional, Gu, X. F., additional, Zhang, X. D., additional, Xiong, P., additional, Ma, W. Y., additional, and Xie, T., additional
- Published
- 2014
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42. Interpolation spatiale des champs thermiques à maille fine (application au département du Vaucluse)
- Author
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Joly, D., Philippe Rossello, Iñaki Garcia de Cortazar-Atauri, Bernard Seguin, Gu, X. F., Riou, C., Sipp, C., Agroclim (AGROCLIM), Institut National de la Recherche Agronomique (INRA), and ProdInra, Migration
- Subjects
[SDV] Life Sciences [q-bio] ,[SDE] Environmental Sciences ,[SDV]Life Sciences [q-bio] ,[SDE]Environmental Sciences ,ComputingMilieux_MISCELLANEOUS ,INTERACTION SOL PLANTE ATMOSPHERE - Abstract
International audience
- Published
- 2003
43. A Simple Method for Calculating the Possible Habit Planes Containing One Set of Dislocations and its Applications to fcc/bct and hcp/bcc Systems
- Author
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Gu, X.-F., primary and Zhang, W.-Z., additional
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- 2013
- Full Text
- View/download PDF
44. Detecting seismic IR anomalies in bi-angular Advanced Along-Track Scanning Radiometer data
- Author
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Xiong, P., primary, Gu, X. F., additional, Bi, Y. X., additional, Shen, X. H., additional, Meng, Q. Y., additional, Zhao, L. M., additional, Kang, C. L., additional, Chen, L. Z., additional, Jing, F., additional, Yao, N., additional, Zhao, Y. H., additional, Li, X. M., additional, Li, Y., additional, and Dong, J. T., additional
- Published
- 2013
- Full Text
- View/download PDF
45. Chromosomal Mapping and QTL Analysis of Resistance to Downy Mildew in Cucumis sativus
- Author
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Zhang, S. P., primary, Liu, M. M., additional, Miao, H., additional, Zhang, S. Q., additional, Yang, Y. H., additional, Xie, B. Y., additional, Wehner, T. C., additional, and Gu, X. F., additional
- Published
- 2013
- Full Text
- View/download PDF
46. Characterization of crystal structure and precipitation crystallography of a new Mg xAl2− xGd phase in an Mg97Al1Gd2 alloy.
- Author
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Gu, X.-f. and Furuhara, T.
- Subjects
- *
MAGNESIUM oxide , *ALUMINUM oxide , *PRECIPITATION (Chemistry) , *GADOLINIUM compounds , *SCANNING transmission electron microscopy , *CRYSTALLOGRAPHY - Abstract
The composition, crystal structure and precipitation crystallography of a newly found precipitate are characterized by Cs-corrected scanning transmission electron microscopy. The composition of the plate-like precipitate could be expressed as Mg xAl2− xGd ( x = 0.38), and its crystal structure is the same as the face-centered cubic type Laves phases Mg2Gd and Al2Gd, with a lattice parameter of 7.92 Å (space group No. 227, ). The orientation relationship between the matrix and precipitate is found to be (0001)m//(111)p and [100]m//[10]p, and the habit plane is parallel to the (0001)m//(111)p plane. In addition, this preferred crystallography of phase transformation is well explained on the basis of the atomic matching at the interface. [ABSTRACT FROM AUTHOR]
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- 2016
- Full Text
- View/download PDF
47. Atmospheric column CO<sub>2</sub> measurement from a new automatic ground-based sun photometer in Beijing from 2010 to 2012
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Li, Z. Q., primary, Xie, Y. S., additional, Gu, X. F., additional, Li, D. H., additional, Li, K. T., additional, Zhang, X. Y., additional, Wu, J., additional, and Xiong, W., additional
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- 2012
- Full Text
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48. Characterization and interpretation of the morphology of a Mg2Sn precipitate with irrational facets in a Mg–Sn–Mn alloy
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Shi, Z.-Z., primary, Zhang, W.-Z., additional, and Gu, X.-F., additional
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- 2012
- Full Text
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49. Coupling of satellite data and production models for yields forecasting at regional scale. State of art and methodological developments
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Fischer, Alberte, Moulin, Sophie, Dedieu, Gérard, gu, x. f., GUYOT, Gérard, Guerif, Martine, DELECOLLE, Richard, Baret, Frédéric, Laboratoire d'Etudes et de Recherches en Teledetection Spatiale, Partenaires INRAE, Unité de bioclimatologie, and Institut National de la Recherche Agronomique (INRA)
- Subjects
[SDV]Life Sciences [q-bio] ,[SDE]Environmental Sciences ,ComputingMilieux_MISCELLANEOUS - Abstract
International audience
- Published
- 1995
50. Scatterers integrator based on the maximum variance of order statistics in non-Gaussian clutter
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Gu, X. F., primary, He, Y., additional, Jian, T., additional, and Hao, X. L., additional
- Published
- 2011
- Full Text
- View/download PDF
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