Search Results - "Du, X F"

CFD Analysis and Optimization of Effect of Shroud with Multi-outlets on Airflow Uniformity in a Frost-Free Refrigerator by Du, X F, Zong, C Y, Fu, Q D, Zhang, J R

“…The shroud is a key component of the frost-free refrigerator and its geometric parameters have great influence on the aerodynamic performance of the whole…”
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Identification and characterization of rhizosphere fungal strain MF‐91 antagonistic to rice blast and sheath blight pathogens by Wang, Y.L., Liu, S.Y., Mao, X.Q., Zhang, Z., Jiang, H., Chai, R.Y., Qiu, H.P., Wang, J.Y., Du, X.F., Li, B., Sun, G.C.

“…Aim To examine the inhibition effects of rhizosphere fungal strain MF‐91 on the rice blast pathogen Magnaporthe grisea and sheath blight pathogen Rhizoctonia…”
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Flavour profiling of ‘Marion’ and thornless blackberries by instrumental and sensory analysis by Du, X.F., Kurnianta, A., McDaniel, M., Finn, C.E., Qian, M.C.

“…The flavour of thornless blackberries grown in Pacific Northwest including ‘Thornless Evergreen’, ‘Black Diamond’, ‘Black Pearl’, ‘Nightfall’, ORUS 1843-3,…”
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Spectral measurement of electron antineutrino oscillation amplitude and frequency at Daya Bay by An, F P, Balantekin, A B, Band, H R, Beriguete, W, Bishai, M, Blyth, S, Brown, R L, Butorov, I, Cao, G F, Cao, J, Carr, R, Chan, Y L, Chang, J F, Chang, Y, Chasman, C, Chen, H S, Chen, H Y, Chen, S J, Chen, S M, Chen, X C, Chen, X H, Chen, Y, Chen, Y X, Cheng, Y P, Cherwinka, J J, Chu, M C, Cummings, J P, de Arcos, J, Deng, Z Y, Ding, Y Y, Diwan, M V, Draeger, E, Du, X F, Dwyer, D A, Edwards, W R, Ely, S R, Fu, J Y, Ge, L Q, Gill, R, Gonchar, M, Gong, G H, Gong, H, Gornushkin, Y A, Gu, W Q, Guan, M Y, Guo, X H, Hackenburg, R W, Hahn, R L, Han, G H, Hans, S, He, M, Heeger, K M, Heng, Y K, Hinrichs, P, Hor, Yk, Hsiung, Y B, Hu, B Z, Hu, L J, Hu, L M, Hu, T, Hu, W, Huang, E C, Huang, H X, Huang, H Z, Huang, X T, Huber, P, Hussain, G, Isvan, Z, Jaffe, D E, Jaffke, P, Jetter, S, Ji, X L, Ji, X P, Jiang, H J, Jiao, J B, Johnson, R A, Kang, L, Kettell, S H, Kramer, M, Kwan, K K, Kwok, M W, Kwok, T, Lai, W C, Lai, W H, Lau, K, Lebanowski, L, Lee, J, Lei, R T, Leitner, R, Leung, A, Leung, J K C, Lewis, C A, Li, D J, Li, F, Li, G S, Li, Q J, Li, W D, Li, X N, Li, X Q, Li, Y F

“…A measurement of the energy dependence of antineutrino disappearance at the Daya Bay reactor neutrino experiment is reported. Electron antineutrinos (ν¯(e))…”
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A Note on Algorithms for Genotype and Allele Elimination in Complex Pedigrees With Incomplete Genotype Data by Du, F.-X, Hoeschele, I

“…Elimination of genotypes or alleles for each individual or meiosis, which are inconsistent with observed genotypes, is a component of various genetic analyses…”
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Novel splice-site and frameshift ATP2A2 mutations in Chinese patients with Darier disease by Shi, H. J., Li, M., Zhang, G. L., Xu, S. X., Shao, M. H., Gu, Y., Du, X. F., Mu, H. J., Xie, P.

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Heterozygosity for genes influencing a quantitative trait by Du, F. X, DeNise, S. K, Woodward, B. W

“…Choosing families to sample for a quantitative trait locus mapping experiment is a critical component of experimental design because only heterozygous families…”
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Two novel ATP2C1 mutations in patients with Hailey-Hailey disease and a literature review of sequence variants reported in the Chinese population by Meng, L, Gu, Y, Du, X F, Shao, M H, Zhang, L L, Zhang, G L, Wang, X L

“…Hailey-Hailey disease (HHD) is an autosomal dominant disorder in which the ATP2C1 gene has been implicated. Many mutations of this gene have been detected in…”
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Haplotype construction of sires with progeny genotypes based on an exact likelihood by Du, F X, Woodward, B W, Denise, S K

“…A maximum likelihood method is presented that can be used to construct parental haplotypes based on their progeny genotypes. The exact error rate and choice of…”
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A two-stage half-sib design for mapping quantitative trait loci in food animals by Du, F X, Woodward, B W

“…Daughter and granddaughter half-sib designs for mapping quantitative trait loci were modified to increase experimental power. This new design includes a…”
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Mutations in the ADAR1 gene in Chinese families with dyschromatosis symmetrica hereditaria by Zhang, G L, Shi, H J, Shao, M H, Li, M, Mu, H J, Gu, Y, Du, X F, Xie, P

“…We investigated 2 Chinese families with dyschromatosis symmetrica hereditaria (DSH) and search for mutations in the adenosine deaminase acting on RNA1 (ADAR1)…”
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Estimation of additive, dominance and epistatic variance components using finite locus models implemented with a single-site Gibbs and a descent graph sampler by Du, F X, Hoeschele, I

“…In a previous contribution, we implemented a finite locus model (FLM) for estimating additive and dominance genetic variances via a Bayesian method and a…”
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A Review of Magnetic Particle Imaging and Perspectives on Neuroimaging by Wu, L C, Zhang, Y, Steinberg, G, Qu, H, Huang, S, Cheng, M, Bliss, T, Du, F, Rao, J, Song, G, Pisani, L, Doyle, T, Conolly, S, Krishnan, K, Grant, G, Wintermark, M

“…Magnetic particle imaging is an emerging tomographic technique with the potential for simultaneous high-resolution, high-sensitivity, and real-time imaging…”
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Observation of electron-antineutrino disappearance at Daya Bay by An, F P, Bai, J Z, Balantekin, A B, Band, H R, Beavis, D, Beriguete, W, Bishai, M, Blyth, S, Boddy, K, Brown, R L, Cai, B, Cao, G F, Cao, J, Carr, R, Chan, W T, Chang, J F, Chang, Y, Chasman, C, Chen, H S, Chen, H Y, Chen, S J, Chen, S M, Chen, X C, Chen, X H, Chen, X S, Chen, Y, Chen, Y X, Cherwinka, J J, Chu, M C, Cummings, J P, Deng, Z Y, Ding, Y Y, Diwan, M V, Dong, L, Draeger, E, Du, X F, Dwyer, D A, Edwards, W R, Ely, S R, Fang, S D, Fu, J Y, Fu, Z W, Ge, L Q, Ghazikhanian, V, Gill, R L, Goett, J, Gonchar, M, Gong, G H, Gong, H, Gornushkin, Y A, Greenler, L S, Gu, W Q, Guan, M Y, Guo, X H, Hackenburg, R W, Hahn, R L, Hans, S, He, M, He, Q, He, W S, Heeger, K M, Heng, Y K, Hinrichs, P, Ho, T H, Hor, Y K, Hsiung, Y B, Hu, B Z, Hu, T, Huang, H X, Huang, H Z, Huang, P W, Huang, X, Huang, X T, Huber, P, Isvan, Z, Jaffe, D E, Jetter, S, Ji, X L, Ji, X P, Jiang, H J, Jiang, W Q, Jiao, J B, Johnson, R A, Kang, L, Kettell, S H, Kramer, M, Kwan, K K, Kwok, M W, Kwok, T, Lai, C Y, Lai, W C, Lai, W H, Lau, K, Lebanowski, L, Lee, J, Lee, M K P, Leitner, R, Leung, J K C, Leung, K Y

“…The Daya Bay Reactor Neutrino Experiment has measured a nonzero value for the neutrino mixing angle θ(13) with a significance of 5.2 standard deviations…”
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Empirical Marshall vein ethanol infusion as the first-line strategy in patients with persistent atrial fibrillation undergoing mitral isthmus ablation by Du, X F, Luo, C X, Shen, C J, Feng, M J, He, B, Fu, G H, Wang, B H, Liu, J, Jin, H, Gao, F, Chu, H M

“…Abstract Background Marshall vein ethanol infusion (MVEI) as an additional therapy to conventional catheter ablation (CA) has been proved to be efficacious in…”
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Strategy optimization for the combined procedure of left atrial appendage occlusion plus catheter ablation in patients with atrial fibrillation (COMBINATION): a multi-center, randomized study by Du, X F, Chu, H M, Yang, B, Zhong, J Q, Ruan, Z B, Chen, Q, Tao, S M, Lai, H L, Liang, J Q, Xie, R Q, Ye, P, Zhou, X H, Li, Y D, Li, J P, Zhao, Y J

“…Abstract Background The long-term efficacy and safety of combining left atrial appendage closure (LAAC) plus catheter ablation (CA) in patients with atrial…”
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The detector system of the Daya Bay reactor neutrino experiment by An, F.P., Chan, W.T., Chasman, C., Chen, M.J., Chen, S.M., Chen, X.C., Chen, X.H., Chen, X.S., Chen, Y., Cheng, J.H., Cherwinka, J.J., Cummings, J.P., de Arcos, J., Deng, Z.Y., Ding, X.F., Fu, Z.W., Ghazikhanian, V., Gill, R., Gong, H., Greenler, L.S., Hackenburg, R.W., Hahn, R.L., He, Q., He, W.S., Heeger, K.M., Higuera, A., Hsiung, Y.B., Hu, L.M., Hu, W., Huang, H.X., Huang, X., Hussain, G., Jaffke, P., Ji, X.P., Jiang, H.J., Joseph, J., Lai, C.Y., Lai, W.H., Lebanowski, L., Lei, R.T., Leitner, R., Leung, J.K.C., Lewis, C.A., Li, B., Li, G.S., Li, J., Li, Q.J., Li, S.C., Li, X.N., Li, X.Q., Lin, G.L., Liu, B.J., Liu, D.W., Liu, J.L., Liu, J.C., Liu, Y.B., Lu, C., Lu, H.Q., Luk, K.B., Luo, T., Ma, X.B., McFarlane, M.C., Pec, V., Piilonen, L.E., Qi, F.Z., Ren, B., Shih, K., Sun, G.X., Tagg, N., Torun, Y., Tsang, R.H.M., Tull, C.E., Vorobel, V., Wang, W., Webber, D.M., Wenman, D.L., Whitehead, L., Wong, H.L.H., Wu, F.F., Xia, D.M., Xia, J.K., Xu, W., Yang, C.G., Yang, M.S., Ye, M., Yu, Z.Y., Zhan, L., Zhang, C., Zhang, H.H., Zhang, J.W., Zhang, Q.X., Zhang, Q.M., Zhang, Y.M., Zhang, Z.J., Zhang, Z.P., Zhao, Q.W., Zhao, Y.F., Zhou, L., Zhou, N., Zou, J.H.

“…The Daya Bay experiment was the first to report simultaneous measurements of reactor antineutrinos at multiple baselines leading to the discovery of ν¯e…”
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Search for a light sterile neutrino at Daya Bay by An, F P, Balantekin, A B, Band, H R, Beriguete, W, Bishai, M, Blyth, S, Butorov, I, Cao, G F, Cao, J, Chan, Y L, Chang, J F, Chang, L C, Chang, Y, Chasman, C, Chen, H, Chen, Q Y, Chen, S M, Chen, X, Chen, X, Chen, Y X, Chen, Y, Cheng, Y P, Cherwinka, J J, Chu, M C, Cummings, J P, de Arcos, J, Deng, Z Y, Ding, Y Y, Diwan, M V, Draeger, E, Du, X F, Dwyer, D A, Edwards, W R, Ely, S R, Fu, J Y, Ge, L Q, Gill, R, Gonchar, M, Gong, G H, Gong, H, Grassi, M, Gu, W Q, Guan, M Y, Guo, X H, Hackenburg, R W, Han, G H, Hans, S, He, M, Heeger, K M, Heng, Y K, Hinrichs, P, Hor, Y K, Hsiung, Y B, Hu, B Z, Hu, L M, Hu, L J, Hu, T, Hu, W, Huang, E C, Huang, H, Huang, X T, Huber, P, Hussain, G, Isvan, Z, Jaffe, D E, Jaffke, P, Jen, K L, Jetter, S, Ji, X P, Ji, X L, Jiang, H J, Jiao, J B, Johnson, R A, Kang, L, Kettell, S H, Kramer, M, Kwan, K K, Kwok, M W, Kwok, T, Lai, W C, Lau, K, Lebanowski, L, Lee, J, Lei, R T, Leitner, R, Leung, A, Leung, J K C, Lewis, C A, Li, D J, Li, F, Li, G S, Li, Q J, Li, W D, Li, X N, Li, X Q, Li, Y F, Li, Z B, Liang, H, Lin, C J, Lin, G L

“…A search for light sterile neutrino mixing was performed with the first 217 days of data from the Daya Bay Reactor Antineutrino Experiment. The experiment's…”
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A side-by-side comparison of Daya Bay antineutrino detectors by Bai, J.Z., Balantekin, A.B., Cao, G.F., Chang, Y., Chen, H.S., Cherwinka, J.J., Chu, M.C., Cummings, J.P., Diwan, M.V., Draeger, E., Du, X.F., Edwards, W.R., Ely, S.R., Gonchar, M., Gong, H., Gu, W.Q., Hahn, R.L., Hans, S., He, W.S., Heng, Y.K., Hinrichs, P., Hor, Y.K., Hsiung, Y.B., Hu, T., Huber, P., Jaffe, D.E., Jetter, S., Ji, X.L., Ji, X.P., Jiang, W.Q., Johnson, R.A., Kang, L., Kettell, S.H., Kwok, M.W., Lai, C.Y., Lai, W.H., Leitner, R., Li, F., Li, Q.J., Li, X.N., Li, Y., Liang, H., Lin, G.L., Lin, S.K., Lin, S.X., Lin, Y.C., Littenberg, L., Littlejohn, B.R., Liu, B.J., Liu, X., Lu, H.Q., Luk, K.B., Ma, L.H., Ma, X.Y., Ma, Y.Q., Mayes, B., McFarlane, M.C., Nakajima, Y., Nemchenok, I., Ngai, W.K., Olshevski, A., Piilonen, L.E., Pinsky, L., Ruan, X.C., Seilhan, B., Sun, J.L., Tang, X., Torun, Y., Trentalange, S., Viren, B., Vorobel, V., Wang, L.S., Wang, L.Y., Wang, M., Wang, N.Y., Wang, R.G., Wang, W., Wang, Z.M., Webber, D.M., Wen, L.J., Whisnant, K., White, C.G., Whitehead, L., Wise, T., Xiao, Q., Xing, Z.Z., Xu, G., Xu, J., Yang, L., Yu, Z.Y., Zhang, C., Zhang, J.W., Zhang, Q.M., Zhang, S.H., Zhao, Y.B., Zheng, L., Zhou, L., Zhou, Y.Z., Zhuang, H.L., Zou, J.H.

“…The Daya Bay Reactor Neutrino Experiment is designed to determine precisely the neutrino mixing angle θ13 with a sensitivity better than 0.01 in the parameter…”
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The muon system of the Daya Bay Reactor antineutrino experiment by An, F.P., Beriguete, W., Blyth, S., Brown, R.E., Butorov, I., Cao, J., Carr, R., Chan, Y.L., Chang, J.F., Chang, L., Chang, Y., Chen, H.Y., Cherwinka, J.J., Cummings, J.P., de Arcos, J., Draeger, E., Dwyer, D.A., Edwards, W.R., Ely, S.R., Gonchar, M., Hackenburg, R.W., He, M., Hinrichs, P., Hor, Y.K., Hsiung, Y.B., Huber, P., Jaffke, P., Ji, X.P., Kebwaro, J.M., Kettell, S.H., Kramer, M., Kwan, K.K., Kwok, M.W., Lai, W.C., Lai, W.H., Lau, K., Lei, R.T., Leung, A., Leung, J.K.C., Li, G.S., Li, X.Q., Li, Y.Z.B., Lin, G.L., Littenberg, L., Liu, D.W., Liu, J.C., Liu, J.L., Liu, S.S., Ma, X.Y., Ma, Y.Q., McFarlane, M.C., McKeown, R.D., Meng, Y., Mohapatra, D., Napolitano, J., Naumov, D., Nemchenok, I., Olshevski, A., Patton, S., Pearson, C.E., Peng, J.C., Pinsky, L., Pun, C.S.J., Qian, X., Ren, B., Sun, J.L., Tam, Y.H., Tang, X., Tsang, K.V., Tung, Y.C., Viren, B., Virostek, S., Wang, C.H., Wang, L.Y., Wang, M., Wang, N.Y., Wang, R.G., Wang, X., Webber, D.M., Wei, Y.D., Wilhelmi, J., Wu, Q., Xu, J.L., Yang, L., Yang, M.S., Ye, M., Yeh, M., Yeh, Y.S., Young, B.L., Yu, Z.Y., Zhang, K., Zhang, Q.M., Zhang, Y.X., Zhang, Z.Y., Zhao, Y., Zheng, L., Zhong, W.L., Zhou, L., Zhou, Z.Y., Zhuang, H.L.

“…The Daya Bay experiment consists of functionally identical antineutrino detectors immersed in pools of ultrapure water in three well-separated underground…”
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