Your search keyword '"Zhou, S. G."' showing total 137 results

1. First-principles calculations to investigate adhesion strength, stability and electronic properties of Al(111)/TiAl3(112) interface

Author

Cao, Y., Wang, P., Xu, Y., Li, T., Liu, J. F., Duan, J. H., Zhang, D. X., and Zhou, S. G.

Published

2023

2. First-principles study of the elastic, thermal and optical properties of α-PbO2 and β-PbO2

Author

Zhou, S. G., Tian, M. L., Xu, Y., Zhang, C., and Cao, Y.

Published

2022

3. CT and MRI studies of hepatic angiosarcoma

Author

Yi, L.-L., Zhang, J.-X., Zhou, S.-G., Wang, J., Huang, Y.-Q., Li, J., Yu, X., and Wang, R.-N.

Published

2019

4. Fine structure in the alpha decay of the 8+ isomer in 216,218U

Author

Zhang, M. M., Tian, Y. L., Wang, Y. S., Zhang, Z. Y., Gan, Z. G., Yang, H. B., Huang, M. H., Ma, L., Yang, C. L., Wang, J. G., Yuan, C. X., Qi, C., Andreyev, A. N., Huang, X. Y., Xu, S. Y., Zhao, Z., Chen, L. X., Wang, J. Y., Liu, M. L., Qiang, Y. H., Li, G. S., Yang, W. Q., Chen, R. F., Zhang, H. B., Lu, Z. W., Xu, X. X., Duan, L. M., Yang, H. R., Huang, W. X., Liu, Z., Zhou, X. H., Zhang, Y. H., Xu, H. S., Wang, N., Zhou, H. B., Wen, X. J., Huang, S., Hua, W., Zhu, L., Wang, X., Mao, Y. C., He, X. T., Wang, S. Y., Xu, W. Z., Li, H. W., Niu, Y. F., Guo, L., Ren, Z. Z., and Zhou, S. G.

Published

2022

5. Level densities of dinuclear systems

Author

Bezbakh, A. N., Shneidman, T. M., Adamian, G. G., Antonenko, N. V., and Zhou, S. -G.

Published

2016

6. First-principles calculations to investigate adhesion strength, stability and electronic properties of Al(111)/TiAl3(112) interface.

Author

Cao, Y., Wang, P., Xu, Y., Li, T., Liu, J. F., Duan, J. H., Zhang, D. X., and Zhou, S. G.

Abstract

The structure, adhesion work, interfacial energy, interfacial fracture toughness and electronic properties of the Al(111)/TiAl3(112) interface were investigated based on first-principles calculations. The number of convergent layers on the surface of Al(111) and TiAl3(112) is discussed, and it is more suitable to stack 7 layers of Al(111) on 5 layers of TiAl3(112). The established interfacial structure was optimized, and the UBER method and the complete relaxation method were used to determine the optimal interfacial distance and work of adhesion. The Ti-HCP interface has the smallest surface energy and the largest adhesion work, indicating that it is the most stable. The Ti-HCP density of states map shows that for atoms in the first layer of Al(111) and TiA13(112), some orbital hybridization peaks can be seen, especially for Al-P and Ti-d orbitals. These resonance peaks imply covalent interactions between Al-P and Ti-d. [ABSTRACT FROM AUTHOR]

Published

2023

7. Alpha decay of the new isotope 215U

Author

Yang, H. B., Zhang, Z. Y., Wang, J. G., Gan, Z. G., Ma, L., Yu, L., Jiang, J., Tian, Y. L., Ding, B., Guo, S., Wang, Y. S., Huang, T. H., Sun, M. D., Wang, K. L., Zhou, S. G., Ren, Z. Z., Zhou, X. H., Xu, H. S., and Xiao, G. Q.

Published

2015

8. New a-Emitting Isotope 214U and Abnormal Enhancement of α-Particle Clustering in Lightest Uranium Isotopes

Author

Zhang, Z. Y., Yang, H. B., Huang, M. H., Gan, Z. G., Yuan, C. X., Qi, C., Andreyev, A. N., Ma, L., Zhang, M. M., Tian, Y. L., Wang, Y. S., Wang, J. G., Yang, C. L., Li, G. S., Qiang, Y. H., Yang, W. Q., Chen, R. F., Zhang, H. B., Lu, Z. W., Xu, X. X., Duan, L. M., Yang, H. R., Huang, W. X., Liu, Z., Zhang, Y. H., Xu, H. S., Wang, N., Zhou, H. B., Wen, X. J., Huang, S., Hua, W., Zhu, L., Wang, X., Mao, Y. C., He, X. T., Wang, S. Y., Xu, W. Z., Li, H. W., Ren, Z. Z., and Zhou, S. G.

Published

2021

9. Isomeric states in heavy nuclei

Author

Adamian, G. G., Antonenko, N. V., Malov, L. A., Lu, B. N., Zhou, S. G., and Scheid, W.

Published

2010

10. New $\alpha$-Emitting Isotope $^{214}$U and Abnormal Enhancement of $\alpha$-Particle Clustering in Lightest Uranium Isotopes

Author

Zhang, Z. Y., Yang, H. B., Huang, M. H., Gan, Z. G., Yuan, C. X., Qi, C., Andreyev, A. N., Liu, M. L., Ma, L., Zhang, M. M., Tian, Y. L., Wang, Y. S., Wang, J. G., Yang, C. L., Li, G. S., Qiang, Y. H., Yang, W. Q., Chen, R. F., Zhang, H. B., Lu, Z. W., Xu, X. X., Duan, L. M., Yang, H. R., Huang, W. X., Liu, Z., Zhou, X. H., Zhang, Y. H., Xu, H. S., Wang, N., Zhou, H. B., Wen, X. J., Huang, S., Hua, W., Zhu, L., Wang, X., Mao, Y. C., He, X. T., Wang, S. Y., Xu, W. Z., Li, H. W., Ren, Z. Z., and Zhou, S. G.

Subjects

Nuclear Experiment

Abstract

A new $\alpha$-emitting isotope $^{214}$U, produced by fusion-evaporation reaction $^{182}$W($^{36}$Ar, 4n)$^{214}$U, was identified by employing the gas-filled recoil separator SHANS and recoil-$\alpha$ correlation technique. More precise $\alpha$-decay properties of even-even nuclei $^{216,218}$U were also measured in reactions of $^{40}$Ar, $^{40}$Ca with $^{180, 182, 184}$W targets. By combining the experimental data, improved $\alpha$-decay reduced widths $\delta^2$ for the even-even Po--Pu nuclei in the vicinity of magic neutron number $N=126$ were deduced. Their systematic trends are discussed in terms of $N_{p}N_{n}$ scheme in order to study the influence of proton-neutron interaction on $\alpha$ decay in this region of nuclei. It is strikingly found that the reduced widths of $^{214,216}$U are significantly enhanced by a factor of two as compared with the $N_{p}N_{n}$ systematics for the $84 \leq Z \leq 90$ and $N

Published

2021

11. First-principles study of the elastic, thermal and optical properties of α-PbO2 and β-PbO2.

Author

Zhou, S. G., Tian, M. L., Xu, Y., Zhang, C., and Cao, Y.

Abstract

In this work, the elastic, anisotropic, thermodynamic and optical properties of α-PbO2 and β-PbO2 are studied by first-principle calculations based on density functional theory. The results describing elastic properties show that both α-PbO2 and β-PbO2 have certain plasticity and mechanical stability. β-PbO2 has large elastic anisotropy. Combined with the quasi-harmonic Debye model, changes of the bulk modulus (B), constant volume heat capacity (CV), constant pressure heat capacity (CP), Debye temperature (ΘD) and thermal expansion coefficient (α) of α-PbO2 and β-PbO2, in the temperature range 0–500 K and the pressure range 0–30 GPa, are studied. Finally, the optical properties of PbO2 are also examined. The results provide important guidance for the application of α-PbO2 and β-PbO2. [ABSTRACT FROM AUTHOR]

Published

2022

12. Structure of nuclei far from the stability in relativistic approach

Author

Ban, S. F., Geng, L. S., Long, W. H., Meng, J., Peng, J., Yao, J. M., Zhang, S. Q., and Zhou, S. G.

Published

2007

13. Relativistic wave functions for single-proton resonant states

Author

Zhang, S. S., Zhang, W., Zhou, S. G., and Meng, J.

Published

2007

14. Self-similarity, small-world, scale-free scaling, disassortativity, and robustness in hierarchical lattices

Author

Zhang, Z.-Z., Zhou, S.-G., and Zou, T.

Published

2007

15. Test of spin symmetry in anti-nucleon spectra

Author

He, X. T., Zhou, S. G., Meng, J., Zhao, E. G., and Scheid, W.

Published

2006

16. Shape evolution for Sm isotopes in relativistic mean-field theory

Author

Meng, J., Zhang, W., Zhou, S. G., Toki, H., and Geng, L. S.

Published

2005

17. Relativistic description of exotic nuclei and nuclear matter at extreme conditions

Author

Meng, J., Ban, S. F., Li, J., Long, W. H., Lü, H. F., Zhang, S. Q., Zhang, W., and Zhou, S. -G.

Published

2004

18. Neutron halos in hypernuclei

Author

Lü, H.F., Meng, J., Zhang, S.Q., and Zhou, S.-G.

Published

2003

19. Isospin and Z1/3-dependence of the nuclear charge radii

Author

Zhang, S.Q., Meng, J., Zhou, S.-G., and Zeng, J.Y.

Published

2002

20. Alkaline extracellular reduction: isolation and characterization of an alkaliphilic and halotolerant bacterium, Bacillus pseudofirmus MC02

Author

Ma, C., Zhuang, L., Zhou, S. G., Yang, G. Q., Yuan, Y., and Xu, R. X.

Published

2012

21. Fe(III) oxide reduction and carbon tetrachloride dechlorination by a newly isolated Klebsiella pneumoniae strain L17

Author

Li, X. M., Zhou, S. G., Li, F. B., Wu, C. Y., Zhuang, L., Xu, W., and Liu, L.

Published

2009

22. Trielectronic recombination in Be-like ions

Author

Schnell, M., Bannister, M.E., Böhm, S., Gwinner, G., Kieslich, S., Müller, A., Schippers, S., Schwalm, D., Shi, W., Wolf, A., and Zhou, S.-G.

Published

2003

23. New rotational bands in 174Ta

Author

Ma, Y.-J., Liu, Y.-Z., Sun, H.-B., Wen, S., Zhou, S.-G., Zheng, H., Yang, H.-T., Huo, J.-D., Wu, X.-G., and Yang, C.-X.

Published

1998

24. Covariant density functional theory and applications in nuclear physics and r-process

Author

Ring P., Yao J. M., Niu Z. M., Li Z. P., Li L. L., Zhao P. W., Zhou S. G., and Meng J.

Subjects

Physics, QC1-999

Abstract

The covariant density functional theory (CDFT) with a few number of parameters allows a very successful description of the properties of nuclei all over the nuclear chart. The recent progress on the application of the CDFT as well as its extensions for a series of interesting and hot topics in nuclear structure and nuclear astrophysics are summarized. In particular, the newly proposed point-coupling parametrization PC-PK1 and the application of the CDFT to the single particle level of the radioactive neutron-rich doubly magic nucleus 132Sn, the deformed halo in nuclei, and the β decay life-time of neutron rich nuclei are discussed in details.

Published

2012

25. Clinicopathologic features and outcome of cervical cancer: implications for treatment.

Author

LIANG, B.-Q., ZHOU, S.-G., LIU, J.-H., HUANG, Y.-M., and ZHU, X.

Abstract

OBJECTIVE: We used a regression analysis of the SEER database to establish a new Nomogram for predicting prognosis of cervical cancer patients and guiding the treatment. PATIENTS AND METHODS: We divided the data into the training cohort and the verification cohort. Univariate and multivariate Cox risk regression analysis was used to identify independent prognostic factors and establish a Nomogram model. The verification cohort was used for external verification, and the accuracy was evaluated with C-index and AUC. Finally, Nomogram was used to establish 1-year, 3-year and 5-year survival curves of cervical cancer patients. RESULTS: In this study, 5691 patients with cervical squamous cell carcinoma were included. Data obtained from the training cohort were independent risk factors of cervical cancer AJCC stage (p = 0.039), RX Summ -- Surgery Primary Site (p = 0.012), radiation (p = 0.031), chemotherapy (p = 0.013), tumor size (p = 0.009), race (p = 0.039). The 1-year, 3-year, and 5-year overall survival rates for cervical cancer patients were 77.2%, 47.8%, and 35.2%, respectively. CONCLUSIONS: The Nomogram model can better screen out more reasonable comprehensive treatments for patients at different stages. And it is of great help to improve the survival rate and reduce the recurrence rate of cervical cancer patients. [ABSTRACT FROM AUTHOR]

Published

2021

26. Evolution of octupole correlations in ^123Ba

Author

Chen, X. C., Zhao, J., Xu, C., Hua, H., Shneidman, T. M., Zhou, S. G., Wu, X. G., Li, X. Q., Zhang, S. Q., Li, Z. H., Liang, W. Y., Meng, J., Xu, F. R., Qi, B., Ye, Y. L., Jiang, D. X., Cheng, Y. Y., He, C., Sun, J. J., Han, R., Niu, C. Y., Li, C. G., Li, P. J., Wang, C. G., Wu, H. Y., Zhou, H., Hu, S. P., Zhang, H. Q., Li, G. S., He, C. Y., Zheng, Y., Li, C. B., Li, H. W., Wu, Y. H., Luo, P. W., and Zhong, J.

Subjects

octupole correlations

Abstract

High-spin states of 123Ba have been studied via the 108Cd(19F , 3np) 123Ba fusion-evaporation reaction at a beam energy of 90 MeV. Several E1 transitions linking the positive-parity ν(d5/2 + g7/2) band and negative-parity νh11/2 band are observed in 123Ba for the first time. Evidence for the existence of octupole correlations in 123Ba is presented based on the systematic comparisons of the B(E1)/B(E2) branching ratios and the energy displacements in odd-A Ba isotopes. The characteristics of octupole correlation in the odd-A 123, 125Ba are explained by the state-of-the-art multidimensionally-constrained relativistic mean-field model and cluster model based on the dinuclear system concept.

Published

2016

27. First proton--proton collisions at the LHC as observed with the ALICE detector: measurement of the charged particle pseudorapidity density at $\ sqrt(s)$= 900 GeV

Author

Aamodt, Bz, K., Abel, Aq, N., Abeysekara, Ad, U., Abrahantes, Quintana, Ap, A., Acero, Bk, A., Adamová, Ch, D., Aggarwal, M. M. y., Aglieri, Rinella, An, G., Agocs, A. G. r., Aguilar, Salazar, Bn, S., Ahammed, Bc, Z., Ahmad, A. b., Ahmad, N. b., Ahn, S. U., Ax, Akimoto, Cv, R., Akindinov, Bp, A., Aleksandrov, Br, D., Alessandro, Cx, B., Alfaro, Molina, Bn, R., Alici, A. m., Almaráz, Aviña, Bn, E., Alme, J. h., Alt, Aq, T., Altini, V. e., Altinpinar, Af, S., Andrei, C. q., Andronic, Af, A., Anelli, Angelov, Aq, V., Anson, Aa, C., Antičić, Di, T., Antinori, An, F., Antinori, S. m., Antipin, Ak, K., Antończyk, Ak, D., Antonioli, P. n., Anzo, Bn, A., Aphecetche, Bu, L., Appelshäuser, Ak, H., Arcelli, S. m., Arceo, Arend, Ak, A., Armesto, Cn, N., Arnaldi, Cx, R., Aronsson, Bv, T., Arsene, I. C., Bz, Asryan, Ct, A., Augustinus, An, A., Averbeck, Af, R., Awes, T. C., Bx, Äystö, Aw, J., Azmi, M. D. b., Bablok, S. h., Bach, Aj, M., Badalà, A. x., Baek, Y. W., Ax, Bagnasco, Cx, S., Bailhache, Bala, Cw, R., Baldisseri, Ck, A., Baldit, A. z., Bán, Bf, J., Barbera, R. w., Barnaföldi, G. G. r., Barnby, L. l., Barret, V. z., Bartke, Ac, J., Barile, F. e., Basile, M. m., Basmanov, Cp, V., Bastid, N. z., Bathen, Bt, B., Batigne, Bu, G., Batyunya, Ai, B., Baumann, Bt, C., Bearden, I. G., Ab, Becker, B. t., Belikov, Cu, I., Bellwied, Ah, R., Belmont, Moreno, Belogianni, A. d., Benhabib, Beole, Cw, S., Berceanu, I. q., Bercuci, Berdermann, Af, E., Berdnikov, Am, Y., Betev, An, L., Bhasin, Av, A., Bhati, A. K. y., Bianchi, Cw, L., Al, N., Bianchin, Ca, C., Bielčík, Cc, J., Bielčíková, Ch, J., Bilandzic, A. c., Bimbot, By, L., Biolcati, Cw, E., Blanc, A. z., Blanco, F. w., Blanco, Bk, F., Blau, Blume, Ak, C., Boccioli, An, M., Bock, Aa, N., Bøgdanov, Bq, A., Bøggild, Ab, H., Bogolyubsky, Ce, M., Bohm, Cr, J., Boldizsár, L. r., Bombara, M. l., Bombonati, Bondila, Aw, M., Borel, Ck, H., Borshchov, Ay, V., Bortolin, Bose, Bb, S., Bosisio, Luciano, Cy, L., Bossú, Cw, F., Botje, M. c., Böttger, Aq, S., Bourdaud, Boyer, By, B., Braun, Ct, M., Braun, Munzinger, af ag, P., Bravina, Bz, L., Bregant, Marco, Cy, M., Breitner, Bruckner, Brun, An, R., Bruna, Bv, E., Bruno, G. E. e., Budnikov, Cp, D., Buesching, Bugaev, Az, K., Buncic, An, P., Busch, Ar, O., Buthelezi, Z. v., Caffarri, Ca, D., Cai, Dg, X., Caines, Bv, H., Camacho, Bl, E., Camerini, Paolo, Cy, P., Campbell, Canoa, Roman, An, V., Capitani, G. P., Al, Cara, Romeo, G. n., Carena, Carena, An, W., Carminati, Casanova, Díaz, Al, A., Caselle, Castillo, Castellanos, Ck, J., Castillo, Hernandez, J. F., Af, Catanescu, V. q., Cattaruzza, Enrico, Cy, E., Cavicchioli, An, C., Cerello, Cx, P., Chambert, By, V., Chang, Cr, B., Chapeland, An, S., Charpy, By, A., Charvet, J. L., Ck, Chattopadhyay, Bc, S., Cherney, Ad, M., Cheshkov, Cheynis, Bj, B., Chiavassa, Chibante, Barroso, Chinellato, D. D. u., Chochula, Choi, Cg, K., Chojnacki, Db, M., Christakoglou, Db, P., Christensen, C. H., Ab, Christiansen, Bi, P., Chujo, Da, T., Chuman, As, F., Cicalo, C. t., Cifarelli, L. m., Cindolo, F. n., Cleymans, J. v., Cobanoglu, Cw, O., Coffin, J. P., Cu, Coli, Colla, Conesa, Balbastre, Al, G., Conesa del Valle, Bu, Z., Conner, E. S., Df, Constantin, Ar, P., Contin, Giacomo, Cy, G., Contreras, J. G., Bl, Corrales, Morales, Cw, Y., Cormier, T. M., Ah, Cortese, P. a., Maldonado, I. C., Cf, Cosentino, M. R. u., Costa, Cotallo, M. E., Bk, Crescio, Crochet, P. z., Cuautle, Bm, E., Cunqueiro, Al, L., Cussonneau, Bu, J., Dainese, Bg, A., Dalsgaard, H. H., Ab, Danu, A. p., Das, Bb, I., Dash, A. k., Dash, S. k., Barros, De, G. O. V., Co, Caro, De, Cl, A., Cataldo, De, Cuveland, De, Aq, J., Falco, De, A. s., Gaspari, De, Ar, M., Groot, De, An, J., Gruttola, De, Cl, D., Haas, De, A. P., Db, Marco, De, Cx, N., Rooij, De, Db, R., Pasquale, De, Cl, S., Vaux, De, G. v., Delagrange, Bu, H., Dellacasa, G. a., Deloff, Dc, A., Demanov, Dénes, E. r., Deppman, Co, A., D'Erasmo, G. e., Derkach, Ct, D., Devaux, A. z., Bari, Di, D. e., Giglio, Di, C. e., Liberto, Di, Cj, S., Mauro, Di, Nezza, Di, Al, P., Dialinas, Bu, M., Díaz, Bm, L., Aw, R., Dietel, Bt, T., Ding, Dg, H., Divià, Djuvsland, Ø. h., do Amaral Valdiviesso, G. u., Dobretsov, Br, V., Dobrin, Bi, A., Dobrowolski, Dc, T., Dönigus, Af, B., Domínguez, Bm, I., Don, D. M. M., At, Dordic, Bz, O., Dubey, A. K., Bc, Dubuisson, Ducroux, Bj, L., Dupieux, P. z., Dutta, Majumdar, A. K., Bb, M. R., Bc, Elia, D. f., Emschermann, Ar, D., Enokizono, Bx, A., Espagnon, Estienne, Evans, D. l., Evrard, Eyyubova, Bz, G., Fabjan, C. W., An, Fabris, Faivre, Ao, J., Falchieri, D. m., Fantoni, Fasel, Af, M., Fearick, R. v., Fedunov, Ai, A., Fehlker, D. h., Fekete, V. o., Felea, D. p., Fenton, Olsen, Ab, B., Feofilov, Ct, G., Fernández, Téllez, Cf, A., Ferreiro, E. G., Cn, Ferretti, Cw, A., Ferretti, R. a., Figueredo, M. A. S., Co, Filchagin, Cp, S., Fini, R. f., Fionda, F. M. e., Fiore, E. M. e., Floris, M. s., Fodor, Z. r., Foertsch, S. v., Foka, Af, P., Fokin, Br, S., Formenti, Fragiacomo, Enrico, Cz, E., Fragkiadakis, M. d., Frankenfeld, Af, U., Frolov, Bw, A., Fuchs, An, U., Furano, Furget, Ao, C., Fusco, Girard, Cl, M., Gaardhøje, J. J., Ab, Gadrat, Ao, S., Gagliardi, Cw, M., Gago, Bl, A., Gallio, Ganoti, P. d., Ganti, M. S., Bc, Garabatos, Af, C., Garc, Cw, C., Gebelein, Gemme, R. a., Germain, Gheata, Ghidini, B. e., Ghosh, Bc, P., Giraudo, Cx, G., Giubellino, Gladysz, Dziadus, Ac, E., Glasow, Bt, R., Glässel, Glenn, Bh, A., Gomez, Ae, R., González, Santos, Cf, H., González, Trueba, L. H., Bn, González, Zamora, Bk, P., Gorbunov, Ad, Y., Gotovac, Cs, S., Gottschlag, Bt, H., Grabski, Bn, V., Grajcarek, Ar, R., Grelli, Db, A., Grigoras, Grigoriev, Bq, V., Grigoryan, Dh, A., Grinyov, Az, B., Grion, Cz, N., Gros, Grosse, Oetringhaus, J. F., An, Grossiord, J. Y., Bj, Grosso, Raffaele, Cb, R., Guarnaccia, Cl, C., Guber, Bo, F., Guernane, Ao, R., Guerzoni, B. m., Gulbrandsen, Ab, K., Gulkanyan, Dh, H., Gunji, Cv, T., Gupta, Av, R., Gustafsson, H. A., Bi, Gutbrod, Af, H., Haaland, Ø. h., Hadjidakis, By, C., Haiduc, M. p., Hamagaki, Cv, H., Hamar, G. r., Hamblen, Ba, J., Han, B. H., Cq, Harris, J. W., Bv, Hartig, Ak, M., Harutyunyan, Hasch, Al, D., Hasegan, D. p., Hatzifotiadou, D. n., Hayrapetyan, Heide, Bt, M., Heinz, Bv, M., Helstrup, H. i., Herghelegiu, A. q., Hernández, Herrera, Corral, Bl, G., Herrmann, Ar, N., Hetland, K. F. i., Hicks, Bv, B., Hiei, As, A., Hille, P. T., Bz, Hippolyte, Cu, B., Horaguchi, As, T., Hori, Cv, Y., Hristov, Hřivnáčová, By, I., S. g., Hu, Huber, Humanic, T. J., Aa, Hutter, Aj, D., Hwang, D. S., Cq, Ichou, Bu, R., Ilkaev, Cp, R., Ilkiv, Dc, I., Innocenti, P. G., An, Ippolitov, Br, M., Irfan, M. b., Ivan, Db, C., Ivanov, Am, V., Iwasaki, Jachołkowski, Jacobs, P. M. j., Jančurová, Ai, L., Jangal, Cu, S., Janik, R. o., Jayananda, Ad, K., Jena, C. k., Jena, Bs, S., Jirden, Jones, G. T. l., Jones, P. G. l., Jovanovi, P. l., Jung, Ax, H., Ax, W., Jusko, A. l., Kaidalov, A. B., Bp, Kalcher, Kali, Bf, P., Kalliokoski, Aw, T., Kalweit, Ag, A., Kamal, A. b., Kamermans, Kanaki, K. h., Kang, Ax, E., J. H., Cr, Kapitan, Kaplin, Kapusta, Karavicheva, Bo, T., Karpechev, Bo, E., Kazantsev, Br, A., Kebschull, Aq, U., Keidel, Df, R., Khan, M. M. b., Khan, S. A., Bc, Khanzadeev, Am, A., Kharlov, Ce, Y., Kikola, Dd, D., Kileng, B. i., Kim, D. J., Aw, D. S., Ax, D. W., Ax, H. N., Ax, Ce, J., J. H., Cq, J. S., Ax, Ax, M., Cr, M., S. H., Ax, Cq, S., Cr, Y., Kirsch, Kisel, Aq, I., Kiselev, Bp, S., Kisiel, Aa, A., Klay, J. L., Cm, Klein, Ar, J., Kliemant, Klovning, A. h., Kluge, Kniege, Ak, S., Koch, Ar, K., Kolevatov, Bz, R., Kolojvari, Kondratiev, Ct, V., Kondratyeva, Bq, N., Konevskih, Bo, A., Kornaś, Kour, R. l., Kowalski, Ac, M., Kox, Kozlov, Br, K., Kral, Králik, Bf, I., Kramer, Ak, F., Kraus, Ag, I., Kravčáková, Be, A., Krawutschke, Bd, T., Krivda, M. l., Krumbhorn, Krus, Cc, M., Kryshen, Am, E., Krzewicki, M. c., Kucheriaev, Br, Y., Kuhn, Cu, C., Kuijer, P. G. c., Kumar, L. y., Kumar, N. y., Kupczak, Dd, R., Kurashvili, Dc, P., Kurepin, A. N., Bo, Kuryakin, Cp, A., Kushpil, Ch, S., Ch, V., Kutouski, Ai, M., Kvaerno, Bz, H., Kweon, M. J., Ar, Kwon, Rocca, La, P. w., Lackner, Ladrón de Guevara, Lafage, Lal, Av, C., Lara, Aq, C., Larsen, D. T. h., Laurenti, G. n., Lazzeroni, C. l., Bornec, Le, By, Y., Bris, Le, Bu, N., Lee, Cg, H., K. S., Ax, S. C., Ax, Lefèvre, Bu, F., Lenhardt, Leistam, Lehnert, Ak, J., Lenti, V. f., León, Bn, H., León, Monzón, Ae, I., León, Vargas, Lévai, P. r., Y. g., Li, Lietava, R. l., Lindal, Bz, S., Lindenstruth, Lippmann, Lisa, M. A., Aa, Listratenko, Ay, O., Liu, L. h., Loginov, Lohn, Lopez, X. z., López, Noriega, By, M., López, Ramírez, Cf, R., López, Torres, Ap, E., Løvhøiden, Feijo, Soares, A. L., Co, S. g., Lu, Lunardon, Ca, M., Luparello, Cw, G., Luquin, Lutz, J. R., Cu, Luvisetto, M. n., Dg, K., Bv, R., Madagodahettige, Don, D. M., At, Maevskaya, Mager, Ag, M., Mahajan, Mahapatra, D. P. k., Maire, Cu, A., Makhlyueva, An, I., Mal'Kevich, Bp, D., Malaev, Am, M., Maldonado, Cervantes, Malek, Malkiewicz, Malzacher, Mamonov, Manceau, L. z., Mangotra, Av, L., Manko, Manso, F. z., Manzari, Mao, Dg, Y., Mareš, Cd, J., Margagliotti, Giacomo, G. V., Cy, Margotti, A. n., Marín, Martashvili, Ba, I., Martinengo, Martínez, M. I., Cf, Martínez, Davalos, Martínez, García, Maruyama, As, Y., Marzari, Chiesa, Masciocchi, Masera, Masetti, M. m., Masoni, A. t., Massacrier, Mastromarco, M. e., Mastroserio, A. e., Matthews, Z. L. l., Mattos, Tavares, B. u., Matyja, Ac, A., Mayani, Bm, D., Mazza, Mazzoni, M. A., Cj, Meddi, Ci, F., Menchaca, Rocha, Mendez, Lorenzo, Meoni, Mercado, Pérez, Mereu, Miake, Da, Y., Michalon, Miftakhov, Am, N., Milosevic, Bz, J., Minafra, F. e., Mischke, Miśkowiec, Af, D., Mitu, C. p., Mizoguchi, As, K., Mlynarz, Ah, J., Mohanty, Bc, B., Molnar, L. r., Mondal, M. M., Bc, Montaño, Zetina, Bl, L., Monteno, Cx, M., Montes, Bk, E., Morando, Moretto, Ca, S., Morsch, Moukhanova, Br, T., Muccifora, Al, V., Mudnic, Cs, E., Muhuri, Müller, An, H., Munhoz, M. G., Co, Munoz, Cf, J., Musa, Musso, Cx, A., Nandi, B. K., Bs, Nania, R. n., Nappi, E. f., Navach, F. e., Navin, S. l., Nayak, T. K., Bc, Nazarenko, Nazarov, Cp, G., Nedosekin, Nendaz, Bj, F., Newby, Bh, J., Nianine, Nicassio, M. f., Nielsen, B. S., Ab, Nikolaev, Nikolic, Di, V., Nikulin, Nilsen, B. S., Aa, Nilsson, M. S., Bz, Noferini, F. n., Nomokonov, Ai, P., Nooren, Db, G., Novitzky, Aw, N., Nyatha, Bs, A., Nygaard, Ab, C., Nyiri, Bz, A., Nystrand, J. h., Ochirov, Odyniec, G. j., Oeschler, Ag, H., Oinonen, Okada, Cv, K., Oldenburg, Oleniacz, Dd, J., Oppedisano, Cx, C., Orsini, Ck, F., Ortíz, Velázquez, Bm, A., Ortona, Oskamp, Oskarsson, Osmic, Österman, Bi, L., Ostrowski, Dd, P., Otterlund, Bi, I., Otwinowski, Af, J., Øvrebekk, G. h., Oyama, Ozawa, Pachmayer, Ar, Y., Pachr, Padilla, Pagano, Cl, P., Paić, Bm, G., Painke, Aq, F., Pajares, Cn, C., Pal, S. K., Bc, Palaha, A. l., Palmeri, A. x., Panse, Aq, R., Pappalardo, G. S. x., Park, W. J., Af, Pastirčák, Bf, B., Pastore, C. f., Paticchio, V. f., Pavlinov, Ah, A., Pawlak, Dd, T., Peitzmann, Db, T., Pepato, Cb, A., Pereira, Peressounko, Pérez, Bl, C., Perini, An, D., Perrino, D. e., Peryt, Dd, W., Peschek, Pesci, A. n., Peskov, Bm, V., Pestov, Bw, Y., Peters, A. J., An, Petráček, Cc, V., Petridis, A. d., Petris, M. q., Petrov, P. l., Petrovici, M. q., Petta, C. w., Peyré, By, J., Piano, Cz, S., Piccotti, Pikna, M. o., Pillot, Bu, P., Pinsky, At, L., Pitz, Ak, N., Piuz, Platt, R. l., Płoskoń, M. j., Pluta, Pocheptsov, Ai, T., Pochybova, S. r., Podesta, Lerma, P. L. M., Ae, Poggio, Poghosyan, M. G., Cw, Polák, Cd, K., Polichtchouk, Ce, B., Polozov, Bp, P., Polyakov, Pommeresch, B. h., Pop, A. q., Posa, F. e., Pospíšil, Potukuchi, Av, B., Pouthas, Prasad, Preghenella, R. m., Prino, Cx, F., Pruneau, C. A., Ah, Pshenichnov, Bo, I., Puddu, G. s., Pujahari, Bs, P., Pulvirenti, A. w., Punin, Putiš, Be, M., Putschke, Bv, J., Quercigh, An, E., Rachevski, Cz, A., Rademakers, Radomski, Ar, S., Räihä, T. S., Aw, Rak, Rakotozafindrabe, Ramello, L. a., Ramírez, Reyes, Rammler, Raniwala, Au, R., Au, S., Räsänen, Aw, S., Rashevskaya, Cz, I., Rath, S. k., Read, K. F., Ba, Real, Redlich, Dc, K., Renfordt, Ak, R., Reolon, A. R., Al, Reshetin, Rettig, Revol, J. P., An, Reygers, Bt, K., Ricaud, Cu, H., Riccati, Cx, L., Ricci, R. A., Bg, Richter, M. h., Riedler, Riegler, Riggi, F. w., Rivetti, Rodriguez, Cahuantzi, Cf, M., Røed, K. i., Röhrich, Román, López, Cf, S., Romita, R. e., Ronchetti, Al, F., Rosinský, Rosnet, P. z., Rossegger, Rossi, Cy, A., Roukoutakis, Rousseau, By, S., Roy, Bu, C., Bb, P., Rubio, Montero, A. J., Bk, Rui, Rinaldo, Cy, R., Rusanov, Ar, I., Russo, Cl, G., Ryabinkin, Br, E., Rybicki, Sadovsky, Ce, S., Šafařík, An, K., Sahoo, Ca, R., Saini, Bc, J., Saiz, Sakata, Da, D., Salgado, C. A., Cn, Salgueiro Dominques da Silva, Salur, S. j., Samanta, Bc, T., Sambyal, Av, S., Samsonov, Šándor, Bf, L., Sandoval, Sano, Da, M., Cv, S., Santo, Santoro, R. e., Sarkamo, Saturnini, P. z., Scapparone, E. n., Scarlassara, Ca, F., Scharenberg, R. P., De, Schiaua, C. q., Schicker, Schindler, Schmidt, H. R., Af, Schreiner, Schuchmann, Schukraft, Schutz, Bu, Y., Schwarz, Af, K., Schweda, Scioli, G. m., Scomparin, Cx, E., Segato, Ca, G., Semenov, Senyukov, S. a., Seo, Ax, J., Serci, S. s., Serkin, Serradilla, Sevcenco, A. p., Sgura, I. e., Shabratova, Ai, G., Shahoyan, Sharkov, Bp, G., Sharma, N. y., Sharma, Shigaki, Shimomura, Shtejer, Ap, K., Sibiriak, Siciliano, Sicking, Siddi, E. t., Siemiarczuk, Silenzi, A. m., Silvermyr, Bx, D., Simili, Db, E., Simonetti, G. e., Singaraju, Bc, R., Singh, Singhal, Bc, V., Sinha, B. C., Bc, Bb, T., Sitar, B. o., Sitta, M. a., Skaali, T. B., Bz, Skjerdal, K. h., Smakal, Cc, R., Smirnov, Bv, N., Snellings, R. c., Snow, H. l., Søgaard, Sokolov, Bm, O., Soloviev, Ce, A., Soltveit, H. K., Ar, Soltz, Bh, R., Sommer, Ak, W., Son, C. W., Cg, H. S., Cq, Song, Soos, Soramel, Soyk, Spyropoulou, Stassinaki, M. d., Srivastava, B. K., De, Stachel, Staley, Stan, I. p., Stefanek, Dc, G., Stefanini, Steinbeck, Stenlund, Bi, E., Steyn, G. v., Stocco, Cw, D., Stock, Stolpovsky, Ce, P., Strmen, P. o., Suaide, A. A. P., Co, Subieta, Vásquez, M. A., Cw, Sugitate, Suire, Šumbera, Ch, M., Susa, Swoboda, Symons, T. J. M. j., Szanto de Toledo, Szarka, I. o., Szostak, A. t., Szuba, Dd, M., Tadel, Tagridis, C. d., Takahara, Cv, A., Takahashi, J. u., Tanabe, Da, R., Tapia, Takaki, J. D., By, Taureg, Tauro, Tavlet, Tejeda, Muñoz, Cf, G., Telesca, Terrevoli, C. e., Thäder, Tieulent, Bj, R., Tlusty, Cc, D., Toia, Tolyhy, T. r., Torcato de Matos, Torii, As, H., Torralba, Aq, G., Toscano, Tosello, Tournaire, Bu, A., Traczyk, Tribedy, Tröger, Truesdale, Aa, D., Trzaska, W. H., Aw, Tsiledakis, Ar, G., Tsilis, E. d., Tsuji, Tumkin, Turrisi, Turvey, Ad, A., Tveter, T. S., Bz, Tydesjö, Tywoniuk, Ulery, Ullaland, K. h., Uras, A. s., Urbán, Be, J., Urciuoli, G. M., Cj, Usai, G. L. s., Vacchi, Vala, Valencia, Palomo, Bn, L., Vallero, van den Brink, van der Kolk, N. c., Vande, Vyvre, Van, Leeuwen, Vannucci, Bg, L., Vargas, Varma, Bs, R., Vasiliev, Vassiliev, Vassiliou, M. d., Vechernin, Venaruzzo, Massimo, Vercellin, Vergara, Vernet, R. w., Verweij, Vetlitskiy, Bp, I., Vickovic, Cs, L., Viesti, Vikhlyantsev, Cp, O., Vilakazi, Z. v., Villalobos, Baillie, O. l., Vinogradov, Vinogradov, Ct, L., Cp, Y., Virgili, Cl, T., Viyogi, Y. P. k., Vodopianov, Voloshin, Bp, K., Ah, S., Volpe, G. e., Von, Haller, An, B., Vranic, Vrláková, Vulpescu, B. z., Wagner, B. h., Wagner, Wallet, Wan, Dg, R., Wang, Dg, D., Watanabe, Da, K., Wen, Q. g., Wessels, Bt, J., Wiechula, Wikne, Wilk, Bt, A., Williams, M. C. S. n., Willis, By, N., Windelband, Ar, B., Dg, C., Yang, Ar, H., Yasnopolsky, Yermia, Cg, J., Yin, Dg, Z., Yokoyama, Da, H., Yoo, I. K., Cg, Yuan, Yushmanov, Br, I., Zabrodin, Bz, E., Zagreev, Bp, B., Zalite, Zampolli, Zanevsky, Ai, Y., Zaporozhets, Ai, S., Zarochentsev, Závada, Cd, P., Zbroszczyk, Dd, H., Zelnicek, Aq, P., Zenin, Zepeda, Zgura, I. p., Zhalov, Zhang, Zhou, Zhou, S. g., Zhu, Dg, J., Zichichi, A. m., Zinchenko, Zinovjev, Az, G., Az, M., Zoccarato, Bj, Y., Zycháček, Laboratoire SUBATECH Nantes (SUBATECH), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Nantes (UN)-Mines Nantes (Mines Nantes), Mines Nantes (Mines Nantes), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire d'Orsay (IPNO), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), ALICE, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Aamodt, K., Bz, Abel, N., Aq, Abeysekara, U., Ad, Abrahantes, Quintana, A., Ap, Acero, A., Bk, Adamová, D., Ch, Aggarwal, M. M. y., Aglieri, Rinella, G., An, Agocs, A. G. r., Aguilar, Salazar, S., Bn, Ahammed, Z., Bc, Ahmad, A. b., Ahmad, N. b., Ahn, S. U., Ax, Akimoto, R., Cv, Akindinov, A., Bp, Aleksandrov, D., Br, Alessandro, B., Cx, Alfaro, Molina, R., Bn, Alici, A. m., Almaráz, Aviña, E., Bn, Alme, J. h., Alt, T., Aq, Altini, V. e., Altinpinar, S., Af, Andrei, C. q., Andronic, A., Af, Anelli, Angelov, V., Aq, Anson, C., Aa, Antičić, T., Di, Antinori, F., An, Antinori, S. m., Antipin, K., Ak, Antończyk, D., Ak, Antonioli, P. n., Anzo, A., Bn, Aphecetche, L., Bu, Appelshäuser, H., Ak, Arcelli, S. m., Arceo, Arend, A., Ak, Armesto, N., Cn, Arnaldi, R., Cx, Aronsson, T., Bv, Arsene, I. C., Bz, Asryan, A., Ct, Augustinus, A., An, Averbeck, R., Af, Awes, T. C., Bx, Äystö, J., Aw, Azmi, M. D. b., Bablok, S. h., Bach, M., Aj, Badalà, A. x., Baek, Y. W., Ax, Bagnasco, S., Cx, Bailhache, Bala, R., Cw, Baldisseri, A., Ck, Baldit, A. z., Bán, J., Bf, Barbera, R. w., Barnaföldi, G. G. r., Barnby, L. l., Barret, V. z., Bartke, J., Ac, Barile, F. e., Basile, M. m., Basmanov, V., Cp, Bastid, N. z., Bathen, B., Bt, Batigne, G., Bu, Batyunya, B., Ai, Baumann, C., Bt, Bearden, I. G., Ab, Becker, B. t., Belikov, I., Cu, Bellwied, R., Ah, Belmont, Moreno, Belogianni, A. d., Benhabib, Beole, S., Cw, Berceanu, I. q., Bercuci, Berdermann, E., Af, Berdnikov, Y., Am, Betev, L., An, Bhasin, A., Av, Bhati, A. K. y., Bianchi, L., Cw, N., Al, Bianchin, C., Ca, Bielčík, J., Cc, Bielčíková, J., Ch, Bilandzic, A. c., Bimbot, L., By, Biolcati, E., Cw, Blanc, A. z., Blanco, F. w., Blanco, F., Bk, Blau, Blume, C., Ak, Boccioli, M., An, Bock, N., Aa, Bøgdanov, A., Bq, Bøggild, H., Ab, Bogolyubsky, M., Ce, Bohm, J., Cr, Boldizsár, L. r., Bombara, M. l., Bombonati, Bondila, M., Aw, Borel, H., Ck, Borshchov, V., Ay, Bortolin, Bose, S., Bb, Bosisio, Luciano, L., Cy, Bossú, F., Cw, Botje, M. c., Böttger, S., Aq, Bourdaud, Boyer, B., By, Braun, M., Ct, Braun, Munzinger, P., af ag, Bravina, L., Bz, Bregant, Marco, M., Cy, Breitner, Bruckner, Brun, R., An, Bruna, E., Bv, Bruno, G. E. e., Budnikov, D., Cp, Buesching, Bugaev, K., Az, Buncic, P., An, Busch, O., Ar, Buthelezi, Z. v., Caffarri, D., Ca, Cai, X., Dg, Caines, H., Bv, Camacho, E., Bl, Camerini, Paolo, P., Cy, Campbell, Canoa, Roman, V., An, Capitani, G. P., Al, Cara, Romeo, G. n., Carena, Carena, W., An, Carminati, Casanova, Díaz, A., Al, Caselle, Castillo, Castellano, J., Ck, Castillo, Hernandez, J. F., Af, Catanescu, V. q., Cattaruzza, Enrico, E., Cy, Cavicchioli, C., An, Cerello, P., Cx, Chambert, V., By, Chang, B., Cr, Chapeland, S., An, Charpy, A., By, Charvet, J. L., Ck, Chattopadhyay, S., Bc, Cherney, M., Ad, Cheshkov, Cheynis, B., Bj, Chiavassa, Chibante, Barroso, Chinellato, D. D. u., Chochula, Choi, K., Cg, Chojnacki, M., Db, Christakoglou, P., Db, Christensen, C. H., Ab, Christiansen, P., Bi, Chujo, T., Da, Chuman, F., A, Cicalo, C. t., Cifarelli, L. m., Cindolo, F. n., Cleymans, J. v., Cobanoglu, O., Cw, Coffin, J. P., Cu, Coli, Colla, Conesa, Balbastre, G., Al, Conesa del, Valle, Z., Bu, Conner, E. S., Df, Constantin, P., Ar, Contin, Giacomo, G., Cy, Contreras, J. G., Bl, Corrales, Morale, Y., Cw, Cormier, T. M., Ah, Cortese, P. a., Maldonado, I. C., Cf, Cosentino, M. R. u., Costa, Cotallo, M. E., Bk, Crescio, Crochet, P. z., Cuautle, E., Bm, Cunqueiro, L., Al, Cussonneau, J., Bu, Dainese, A., Bg, Dalsgaard, H. H., Ab, Danu, A. p., Das, I., Bb, Dash, A. k., Dash, S. k., De, Barro, G. O. V., Co, De, Caro, A., Cl, De, Cataldo, De, Cuveland, J., Aq, De, Falco, A., S., De, Gaspari, M., Ar, De, Groot, J., An, De, Gruttola, D., Cl, De, Haa, A. P., Db, De, Marco, N., Cx, De, Rooij, R., Db, De, Pasquale, S., Cl, De, Vaux, G. v., Delagrange, H., Bu, Dellacasa, G. a., Deloff, A., Dc, Demanov, Dénes, E. r., Deppman, A., Co, D'Erasmo, G. e., Derkach, D., Ct, Devaux, A. z., Di, Bari, D., E., Di, Giglio, C., E., Di, Liberto, S., Cj, Di, Mauro, Di, Nezza, P., Al, Dialinas, M., Bu, Díaz, L., Bm, R., Aw, Dietel, T., Bt, Ding, H., Dg, Divià, Djuvsland, Ø. h., do Amaral, Valdiviesso, G. u., Dobretsov, V., Br, Dobrin, A., Bi, Dobrowolski, T., Dc, Dönigus, B., Af, Domínguez, I., Bm, Don, D. M. M., At, Dordic, O., Bz, Dubey, A. K., Bc, Dubuisson, Ducroux, L., Bj, Dupieux, P. z., Dutta, Majumdar, A. K., Bb, M. R., Bc, Elia, D. f., Emschermann, D., Ar, Enokizono, A., Bx, Espagnon, Estienne, Evans, D. l., Evrard, Eyyubova, G., Bz, Fabjan, C. W., An, Fabris, Faivre, J., Ao, Falchieri, D. m., Fantoni, Fasel, M., Af, Fearick, R. v., Fedunov, A., Ai, Fehlker, D. h., Fekete, V. o., Felea, D. p., Fenton, Olsen, B., Ab, Feofilov, G., Ct, Fernández, Téllez, A., Cf, Ferreiro, E. G., Cn, Ferretti, A., Cw, Ferretti, R. a., Figueredo, M. A. S., Co, Filchagin, S., Cp, Fini, R. f., Fionda, F. M. e., Fiore, E. M. e., Floris, M. s., Fodor, Z. r., Foertsch, S. v., Foka, P., Af, Fokin, S., Br, Formenti, Fragiacomo, Enrico, E., Cz, Fragkiadakis, M. d., Frankenfeld, U., Af, Frolov, A., Bw, Fuchs, U., An, Furano, Furget, C., Ao, Fusco, Girard, M., Cl, Gaardhøje, J. J., Ab, Gadrat, S., Ao, Gagliardi, M., Cw, Gago, A., Bl, Gallio, Ganoti, P. d., Ganti, M. S., Bc, Garabatos, C., Af, Garc, C., Cw, Gebelein, Gemme, R. a., Germain, Gheata, Ghidini, B. e., Ghosh, P., Bc, Giraudo, G., Cx, Giubellino, Gladysz, Dziadu, E., Ac, Glasow, R., Bt, Glässel, Glenn, A., Bh, Gomez, R., Ae, González, Santo, H., Cf, González, Trueba, L. H., Bn, González, Zamora, P., Bk, Gorbunov, Y., Ad, Gotovac, S., C, Gottschlag, H., Bt, Grabski, V., Bn, Grajcarek, R., Ar, Grelli, A., Db, Grigoras, Grigoriev, V., Bq, Grigoryan, A., Dh, Grinyov, B., Az, Grion, N., Cz, Gros, Grosse, Oetringhau, J. F., An, Grossiord, J. Y., Bj, Grosso, Raffaele, R., Cb, Guarnaccia, C., Cl, Guber, F., Bo, Guernane, R., Ao, Guerzoni, B. m., Gulbrandsen, K., Ab, Gulkanyan, H., Dh, Gunji, T., Cv, Gupta, R., Av, Gustafsson, H. A., Bi, Gutbrod, H., Af, Haaland, Ø. h., Hadjidakis, C., By, Haiduc, M. p., Hamagaki, H., Cv, Hamar, G. r., Hamblen, J., Ba, Han, B. H., Cq, Harris, J. W., Bv, Hartig, M., Ak, Harutyunyan, Hasch, D., Al, Hasegan, D. p., Hatzifotiadou, D. n., Hayrapetyan, Heide, M., Bt, Heinz, M., Bv, Helstrup, H. i., Herghelegiu, A. q., Hernández, Herrera, Corral, G., Bl, Herrmann, N., Ar, Hetland, K. F. i., Hicks, B., Bv, Hiei, A., A, Hille, P. T., Bz, Hippolyte, B., Cu, Horaguchi, T., A, Hori, Y., Cv, Hristov, Hřivnáčová, I., By, Hu, S. g., Huber, Humanic, T. J., Aa, Hutter, D., Aj, Hwang, D. S., Cq, Ichou, R., Bu, Ilkaev, R., Cp, Ilkiv, I., Dc, Innocenti, P. G., An, Ippolitov, M., Br, Irfan, M. b., Ivan, C., Db, Ivanov, V., Am, Iwasaki, Jachołkowski, Jacobs, P. M. j., Jančurová, L., Ai, Jangal, S., Cu, Janik, R. o., Jayananda, K., Ad, Jena, C. k., Jena, S., B, Jirden, Jones, G. T. l., Jones, P. G. l., Jovanovi, P. l., Jung, H., Ax, W., Ax, Jusko, A. l., Kaidalov, A. B., Bp, Kalcher, Kali, P., Bf, Kalliokoski, T., Aw, Kalweit, A., Ag, Kamal, A. b., Kamermans, Kanaki, K. h., Kang, E., Ax, J. H., Cr, Kapitan, Kaplin, Kapusta, Karavicheva, T., Bo, Karpechev, E., Bo, Kazantsev, A., Br, Kebschull, U., Aq, Keidel, R., Df, Khan, M. M. b., Khan, S. A., Bc, Khanzadeev, A., Am, Kharlov, Y., Ce, Kikola, D., Dd, Kileng, B. i., Kim, D. J., Aw, D. S., Ax, D. W., Ax, H. N., Ax, J., Ce, J. H., Cq, J. S., Ax, M., Ax, M., Cr, S. H., Ax, S., Cq, Y., Cr, Kirsch, Kisel, I., Aq, Kiselev, S., Bp, Kisiel, A., Aa, Klay, J. L., Cm, Klein, J., Ar, Kliemant, Klovning, A. h., Kluge, Kniege, S., Ak, Koch, K., Ar, Kolevatov, R., Bz, Kolojvari, Kondratiev, V., Ct, Kondratyeva, N., Bq, Konevskih, A., Bo, Kornaś, Kour, R. l., Kowalski, M., Ac, Kox, Kozlov, K., Br, Kral, Králik, I., Bf, Kramer, F., Ak, Kraus, I., Ag, Kravčáková, A., Be, Krawutschke, T., Bd, Krivda, M. l., Krumbhorn, Krus, M., Cc, Kryshen, E., Am, Krzewicki, M. c., Kucheriaev, Y., Br, Kuhn, C., Cu, Kuijer, P. G. c., Kumar, L. y., Kumar, N. y., Kupczak, R., Dd, Kurashvili, P., Dc, Kurepin, A. N., Bo, Kuryakin, A., Cp, Kushpil, S., Ch, V., Ch, Kutouski, M., Ai, Kvaerno, H., Bz, Kweon, M. J., Ar, Kwon, La, Rocca, P. w., Lackner, Ladrón de, Guevara, Lafage, Lal, C., Av, Lara, C., Aq, Larsen, D. T. h., Laurenti, G. n., Lazzeroni, C. l., Le, Bornec, Y., By, Le, Bri, N., Bu, Lee, H., Cg, K. S., Ax, S. C., Ax, Lefèvre, F., Bu, Lenhardt, Leistam, Lehnert, J., Ak, Lenti, V. f., León, H., Bn, León, Monzón, I., Ae, León, Varga, Lévai, P. r., Li, Y. g., Lietava, R. l., Lindal, S., Bz, Lindenstruth, Lippmann, Lisa, M. A., Aa, Listratenko, O., Ay, Liu, L. h., Loginov, Lohn, Lopez, X. z., López, Noriega, M., By, López, Ramírez, R., Cf, López, Torre, E., Ap, Løvhøiden, Feijo, Soare, A. L., Co, Lu, S. g., Lunardon, M., Ca, Luparello, G., Cw, Luquin, Lutz, J. R., Cu, Luvisetto, M. n., Ma, K., Dg, R., Bv, Madagodahettige, Don, D. M., At, Maevskaya, Mager, M., Ag, Mahajan, Mahapatra, D. P. k., Maire, A., Cu, Makhlyueva, I., An, Mal'Kevich, D., Bp, Malaev, M., Am, Maldonado, Cervante, Malek, Malkiewicz, Malzacher, Mamonov, Manceau, L. z., Mangotra, L., Av, Manko, Manso, F. z., Manzari, Mao, Y., Dg, Mareš, J., Cd, Margagliotti, Giacomo, G. V., Cy, Margotti, A. n., Marín, Martashvili, I., Ba, Martinengo, Martínez, M. I., Cf, Martínez, Davalo, Martínez, García, Maruyama, Y., A, Marzari, Chiesa, Masciocchi, Masera, Masetti, M. m., Masoni, A. t., Massacrier, Mastromarco, M. e., Mastroserio, A. e., Matthews, Z. L. l., Mattos, Tavare, B. u., Matyja, A., Ac, Mayani, D., Bm, Mazza, Mazzoni, M. A., Cj, Meddi, F., Ci, Menchaca, Rocha, Mendez, Lorenzo, Meoni, Mercado, Pérez, Mereu, Miake, Y., Da, Michalon, Miftakhov, N., Am, Milosevic, J., Bz, Minafra, F. e., Mischke, Miśkowiec, D., Af, Mitu, C. p., Mizoguchi, K., A, Mlynarz, J., Ah, Mohanty, B., Bc, Molnar, L. r., Mondal, M. M., Bc, Montaño, Zetina, L., Bl, Monteno, M., Cx, Montes, E., Bk, Morando, Moretto, S., Ca, Morsch, Moukhanova, T., Br, Muccifora, V., Al, Mudnic, E., C, Muhuri, Müller, H., An, Munhoz, M. G., Co, Munoz, J., Cf, Musa, Musso, A., Cx, Nandi, B. K., B, Nania, R. n., Nappi, E. f., Navach, F. e., Navin, S. l., Nayak, T. K., Bc, Nazarenko, Nazarov, G., Cp, Nedosekin, Nendaz, F., Bj, Newby, J., Bh, Nianine, Nicassio, M. f., Nielsen, B. S., Ab, Nikolaev, Nikolic, V., Di, Nikulin, Nilsen, B. S., Aa, Nilsson, M. S., Bz, Noferini, F. n., Nomokonov, P., Ai, Nooren, G., Db, Novitzky, N., Aw, Nyatha, A., B, Nygaard, C., Ab, Nyiri, A., Bz, Nystrand, J. h., Ochirov, Odyniec, G. j., Oeschler, H., Ag, Oinonen, Okada, K., Cv, Oldenburg, Oleniacz, J., Dd, Oppedisano, C., Cx, Orsini, F., Ck, Ortíz, Velázquez, A., Bm, Ortona, Oskamp, Oskarsson, Osmic, Österman, L., Bi, Ostrowski, P., Dd, Otterlund, I., Bi, Otwinowski, J., Af, Øvrebekk, G. h., Oyama, Ozawa, Pachmayer, Y., Ar, Pachr, Padilla, Pagano, P., Cl, Paić, G., Bm, Painke, F., Aq, Pajares, C., Cn, Pal, S. K., Bc, Palaha, A. l., Palmeri, A. x., Panse, R., Aq, Pappalardo, G. S. x., Park, W. J., Af, Pastirčák, B., Bf, Pastore, C. f., Paticchio, V. f., Pavlinov, A., Ah, Pawlak, T., Dd, Peitzmann, T., Db, Pepato, A., Cb, Pereira, Peressounko, Pérez, C., Bl, Perini, D., An, Perrino, D. e., Peryt, W., Dd, Peschek, Pesci, A. n., Peskov, V., Bm, Pestov, Y., Bw, Peters, A. J., An, Petráček, V., Cc, Petridis, A. d., Petris, M. q., Petrov, P. l., Petrovici, M. q., Petta, C. w., Peyré, J., By, Piano, S., Cz, Piccotti, Pikna, M. o., Pillot, P., Bu, Pinsky, L., At, Pitz, N., Ak, Piuz, Platt, R. l., Płoskoń, M. j., Pluta, Pocheptsov, T., Ai, Pochybova, S. r., Podesta, Lerma, P. L. M., Ae, Poggio, Poghosyan, M. G., Cw, Polák, K., Cd, Polichtchouk, B., Ce, Polozov, P., Bp, Polyakov, Pommeresch, B. h., Pop, A. q., Posa, F. e., Pospíšil, Potukuchi, B., Av, Pouthas, Prasad, Preghenella, R. m., Prino, F., Cx, Pruneau, C. A., Ah, Pshenichnov, I., Bo, Puddu, G. s., Pujahari, P., B, Pulvirenti, A. w., Punin, Putiš, M., Be, Putschke, J., Bv, Quercigh, E., An, Rachevski, A., Cz, Rademakers, Radomski, S., Ar, Räihä, T. S., Aw, Rak, Rakotozafindrabe, Ramello, L. a., Ramírez, Reye, Rammler, Raniwala, R., Au, S., Au, Räsänen, S., Aw, Rashevskaya, I., Cz, Rath, S. k., Read, K. F., Ba, Real, Redlich, K., Dc, Renfordt, R., Ak, Reolon, A. R., Al, Reshetin, Rettig, Revol, J. P., An, Reygers, K., Bt, Ricaud, H., Cu, Riccati, L., Cx, Ricci, R. A., Bg, Richter, M. h., Riedler, Riegler, Riggi, F. w., Rivetti, Rodriguez, Cahuantzi, M., Cf, Røed, K. i., Röhrich, Román, López, S., Cf, Romita, R. e., Ronchetti, F., Al, Rosinský, Rosnet, P. z., Rossegger, Rossi, A., Cy, Roukoutakis, Rousseau, S., By, Roy, C., Bu, P., Bb, Rubio, Montero, A. J., Bk, Rui, Rinaldo, R., Cy, Rusanov, I., Ar, Russo, G., Cl, Ryabinkin, E., Br, Rybicki, Sadovsky, S., Ce, Šafařík, K., An, Sahoo, R., Ca, Saini, J., Bc, Saiz, Sakata, D., Da, Salgado, C. A., Cn, Salgueiro Dominques da, Silva, Salur, S. j., Samanta, T., Bc, Sambyal, S., Av, Samsonov, Šándor, L., Bf, Sandoval, Sano, M., Da, S., Cv, Santo, Santoro, R. e., Sarkamo, Saturnini, P. z., Scapparone, E. n., Scarlassara, F., Ca, Scharenberg, R. P., De, Schiaua, C. q., Schicker, Schindler, Schmidt, H. R., Af, Schreiner, Schuchmann, Schukraft, Schutz, Y., Bu, Schwarz, K., Af, Schweda, Scioli, G. m., Scomparin, E., Cx, Segato, G., Ca, Semenov, Senyukov, S. a., Seo, J., Ax, Serci, S. s., Serkin, Serradilla, Sevcenco, A. p., Sgura, I. e., Shabratova, G., Ai, Shahoyan, Sharkov, G., Bp, Sharma, N. y., Sharma, Shigaki, Shimomura, Shtejer, K., Ap, Sibiriak, Siciliano, Sicking, Siddi, E. t., Siemiarczuk, Silenzi, A. m., Silvermyr, D., Bx, Simili, E., Db, Simonetti, G. e., Singaraju, R., Bc, Singh, Singhal, V., Bc, Sinha, B. C., Bc, T., Bb, Sitar, B. o., Sitta, M. a., Skaali, T. B., Bz, Skjerdal, K. h., Smakal, R., Cc, Smirnov, N., Bv, Snellings, R. c., Snow, H. l., Søgaard, Sokolov, O., Bm, Soloviev, A., Ce, Soltveit, H. K., Ar, Soltz, R., Bh, Sommer, W., Ak, Son, C. W., Cg, H. S., Cq, Song, Soos, Soramel, Soyk, Spyropoulou, Stassinaki, M. d., Srivastava, B. K., De, Stachel, Staley, Stan, I. p., Stefanek, G., Dc, Stefanini, Steinbeck, Stenlund, E., Bi, Steyn, G. v., Stocco, D., Cw, Stock, Stolpovsky, P., Ce, Strmen, P. o., Suaide, A. A. P., Co, Subieta, Vásquez, M. A., Cw, Sugitate, Suire, Šumbera, M., Ch, Susa, Swoboda, Symons, T. J. M. j., Szanto de, Toledo, Szarka, I. o., Szostak, A. t., Szuba, M., Dd, Tadel, Tagridis, C. d., Takahara, A., Cv, Takahashi, J. u., Tanabe, R., Da, Tapia, Takaki, J. D., By, Taureg, Tauro, Tavlet, Tejeda, Muñoz, G., Cf, Telesca, Terrevoli, C. e., Thäder, Tieulent, R., Bj, Tlusty, D., Cc, Toia, Tolyhy, T. r., Torcato de, Mato, Torii, H., A, Torralba, G., Aq, Toscano, Tosello, Tournaire, A., Bu, Traczyk, Tribedy, Tröger, Truesdale, D., Aa, Trzaska, W. H., Aw, Tsiledakis, G., Ar, Tsilis, E. d., Tsuji, Tumkin, Turrisi, Turvey, A., Ad, Tveter, T. S., Bz, Tydesjö, Tywoniuk, Ulery, Ullaland, K. h., Uras, A. s., Urbán, J., Be, Urciuoli, G. M., Cj, Usai, G. L. s., Vacchi, Vala, Valencia, Palomo, L., Bn, Vallero, van den, Brink, van der, Kolk, N., C., Vande, Vyvre, Van, Leeuwen, Vannucci, L., Bg, Vargas, Varma, R., B, Vasiliev, Vassiliev, Vassiliou, M. d., Vechernin, Venaruzzo, Massimo, Vercellin, Vergara, Vernet, R. w., Verweij, Vetlitskiy, I., Bp, Vickovic, L., C, Viesti, Vikhlyantsev, O., Cp, Vilakazi, Z. v., Villalobos, Baillie, O. l., Vinogradov, Vinogradov, L., Ct, Y., Cp, Virgili, T., Cl, Viyogi, Y. P. k., Vodopianov, Voloshin, K., Bp, S., Ah, Volpe, G. e., Von, Haller, B., An, Vranic, Vrláková, Vulpescu, B. z., Wagner, B. h., Wagner, Wallet, Wan, R., Dg, Wang, D., Dg, Watanabe, K., Da, Wen, Q. g., Wessels, J., Bt, Wiechula, Wikne, Wilk, A., Bt, Williams, M. C. S. n., Willis, N., By, Windelband, B., Ar, Xu, C., Dg, Yang, H., Ar, Yasnopolsky, Yermia, Yi, J., Cg, Yin, Z., Dg, Yokoyama, H., Da, Yoo, I. K., Cg, Yuan, Yushmanov, I., Br, Zabrodin, E., Bz, Zagreev, B., Bp, Zalite, Zampolli, Zanevsky, Y., Ai, Zaporozhets, S., Ai, Zarochentsev, Závada, P., Cd, Zbroszczyk, H., Dd, Zelnicek, P., Aq, Zenin, Zepeda, Zgura, I. p., Zhalov, Zhang, Zhou, Zhou, S. g., Zhu, J., Dg, Zichichi, A. m., Zinchenko, Zinovjev, G., Az, M., Az, Zoccarato, Y., Bj, Zycháček, GBR, CZE, SVK, ESP, ZAF, SWE, UKR, CHN, CUB, DEU, NOR, POL, JPN, USA, FRA, CHE, HUN, ARM, BRA, KOR, HRV, DNK, RUS, FIN, GRC, IND, MEX, NLD, DIP. DI FISICA, DIPARTIMENTO DI FISICA E ASTRONOMIA 'AUGUSTO RIGHI', Facolta' di SCIENZE MATEMATICHE FISICHE e NATURALI, Mines Nantes (Mines Nantes)-Université de Nantes (UN)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), K. 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Subjects

Particle physics, Physics and Astronomy (miscellaneous), Proton, Physics::Instrumentation and Detectors, VDP::Matematikk og naturvitenskap: 400::Fysikk: 430::Kjerne- og elementærpartikkelfysikk: 431, FOS: Physical sciences, High-Energies, 01 natural sciences, High Energy Physics - Experiment, law.invention, ALICE detector, High Energy Physics - Experiment (hep-ex), law, Multiplicity Distributions, 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], 0.9 Tev, Fysikk / Physics, 010306 general physics, Collider, Nuclear Experiment, Engineering (miscellaneous), Hadron Interactions, Physics, Cm Energies, Range (particle radiation), Produksjon / Production, Large Hadron Collider, High Energy Physics - heavy ion physics, VDP::Mathematics and natural scienses: 400::Physics: 430::Nuclear and elementary particle physics: 431, 010308 nuclear & particles physics, LHC, ALICE, charge particle, pseudorapidity, 900 GeV, Quark-Gluon Strings, Charged particle, 3. Good health, Dual-Parton Model, Multihadron Production, Bunches, Pseudorapidity, Physics::Accelerator Physics, High Energy Physics::Experiment, Pp Interactions, Particle Physics - Experiment, Beam (structure)

Abstract

On 23rd November 2009, during the early commissioning of the CERN Large Hadron Collider (LHC), two counter-rotating proton bunches were circulated for the first time concurrently in the machine, at the LHC injection energy of 450 GeV per beam. Although the proton intensity was very low, with only one pilot bunch per beam, and no systematic attempt was made to optimize the collision optics, all LHC experiments reported a number of collision candidates. In the ALICE experiment, the collision region was centred very well in both the longitudinal and transverse directions and 284 events were recorded in coincidence with the two passing proton bunches. The events were immediately reconstructed and analyzed both online and offline. We have used these events to measure the pseudorapidity density of charged primary particles in the central region. In the range |$��$| < 0.5, we obtain dNch/deta = 3.10 $\pm$ 0.13 (stat.) $\pm$ 0.22 (syst.) for all inelastic interactions, and dNch/deta = 3.51 $\pm$ 0.15 (stat.) $\pm$ 0.25 (syst.) for non-single diffractive interactions. These results are consistent with previous measurements in proton-antiproton interactions at the same centre-of-mass energy at the CERN SppS collider. They also illustrate the excellent functioning and rapid progress of the LHC accelerator, and of both the hardware and software of the ALICE experiment, in this early start-up phase., 16 pages, 7 captioned figures, 2 tables, published version, figures at http://aliceinfo.cern.ch/ArtSubmission/node/3906

Published

2010

28. A Simple Design of Compact Dual-Wideband Square Slot Antenna With Dual-Sense Circularly Polarized Radiation for WLAN/Wi-Fi Communications.

Author

Xu, R., Li, J.-Y., Liu, J., Zhou, S.-G., Wei, K., and Xing, Z.-J.

Subjects

SLOT antennas -- Design & construction, WIRELESS LANs, BROADBAND communication systems, CIRCULAR polarization, PROTOTYPES

Abstract

A novel compact dual-wideband, dual-sense, circularly polarized (CP), square slot antenna with the simple structure is presented in this communication. The right-hand circular polarization in the +z-direction for the lower frequency is mainly realized by an inverted L-shaped strip, and the left-hand circular polarization in the +z-direction for the upper frequency is mainly achieved by an offset feed structure. A parasitic matching stub is helpful to improve the input impedance matching. The overall dimension of the prototype is only $50 \times 50 \times 1~\text{mm}^{3}$. An optimized antenna is fabricated and measured. The measured 10 dB return loss bandwidth is 111% (1.82–6.36 GHz). Its measured 3 dB axial-ratio bandwidths in the broadside direction are 55% (1.91–3.36 GHz) at lower band and 29.3% (4.78–6.41 GHz) at upper band, which can fully cover all the wireless local area network and wireless fidelity bands. What is more, this antenna has stable antenna gain and good radiation patterns within these two CP bands. [ABSTRACT FROM AUTHOR]

Published

2018

29. A Design of Dual-Wideband Planar Printed Antenna for Circular Polarization Diversity by Combining Slot and Monopole Modes.

Author

Xu, R., Li, J.-Y., Liu, J., Zhou, S.-G., Xing, Z.-J., and Wei, K.

Subjects

BROADBAND communication systems, PLANAR antennas, CIRCULAR polarization, MONOPOLE antennas, WAVELENGTHS

Abstract

A novel dual-wideband antenna is designed for circular polarization (CP) diversity in this communication. It consists of a horseshoe-shaped slot, two $L$ -shaped radiators, and two ports. The working principle of the horseshoe-shaped slot is half-wavelength slot mode, and the working principle of the $L$ -shaped radiator is quarter-wavelength monopole mode. The slot mode is applied to produce two lower CP resonant frequencies of two bands and the monopole mode are used to generate two upper CP resonant frequencies of two bands. By narrowing these two modes of two bands, a dual-wideband CP antenna can be designed easily. When port 1 is excited and port 2 is matched, this antenna radiates left-hand CP wave at lower band and right-hand CP wave at upper band at the $+ \textit {z}$ -direction. When exchanging the excited and matched ports, the radiation is reversed. The measured impedance bandwidths ( $S_{11} < -10$ dB) are 113% (0.7–2.52 GHz) and 60.2% (3.47–6.46 GHz). The measured 3 dB axial ratio bandwidths are 72.5% (1.17–2.5 GHz) and 56% (3.52–6.26 GHz). The isolation between the two ports is better than 15 dB. [ABSTRACT FROM AUTHOR]

Published

2018

30. FHL2 participates in renal interstitial fibrosis by altering the phenotype of renal tubular epithelial cells via regulating the β-catenin pathway.

Author

ZHOU, S.-G., MA, H.-J., GUO, Z.-Y., ZHANG, W., and YANG, X.

Abstract

OBJECTIVE: To investigate the potential role of FHL2 (four and a half LIM domains protein 2) in the renal interstitial fibrosis and its underlying mechanism. MATERIALS AND METHODS: NRK-52E, the rat tubular epithelial cell line, was selected for the in vitro experiments. The unilateral ureteral obstruction (UUO) mouse model and phenotype changes of NRK-52E cells were induced by TGF-β (transforming growth factor-β) treatment. Protein and mRNA expressions of biomarkers of tubular cells and renal fibrosis in NRK-52E cells were detected. Meanwhile, phenotype changes of NRK-52E cells were detected after FHL2 overexpression. Furthermore, CD1 mice were selected for constructing the UUO mouse model. Protein and mRNA expressions of biomarkers of tubular cells and renal fibrosis in kidney tissues were detected. CD1 mice with FHL2 overexpression were constructed by tail vein injection of FHL2 plasmid for further observation of renal interstitial fibrosis. Expressions of β-catenin pathway-related genes were detected by Western blot and polymerase chain reaction (PCR), respectively. RESULTS: The FHL2 expression was increased during the phenotype change of NRK-52E cells induced by TGF-β treatment. Overexpression of FHL2 led to a significant phenotype change. Similarly, the FHL2 expression was elevated in the UUO mouse model. Renal interstitial fibrosis was exaggerated and expression levels of genes related to the β-catenin pathway were increased after injection of FHL2 plasmid. CONCLUSIONS: FHL2 is involved in renal interstitial fibrosis by altering the phenotype of renal tubular epithelial cells via regulating the β-catenin pathway. [ABSTRACT FROM AUTHOR]

Published

2018

31. Giant halo in relativistic and non-relativistic approaches

Author

Terasaki, J., Zhang, S. Q., Zhou, S. G., and Meng, J.

Subjects

Nuclear Theory (nucl-th), Nuclear Theory, Astrophysics::High Energy Astrophysical Phenomena, FOS: Physical sciences, Nuclear Experiment, Astrophysics::Galaxy Astrophysics

Abstract

The phenomena of giant halo and halo of neutron-rich even-Ca isotopes are investigated and compared in the framework of the relativistic continuum Hartree-Bogoliubov (RCHB) and non-relativistic Skyrme Hartree-Fock-Bogoliubov (HFB) calculations. With two parameter sets for each of the RCHB and the Skyrme HFB calculations, it is found that although halo phenomena exist for Ca isotopes near neutron drip line in both calculations, the halo of the Skyrme HFB calculations starts at a more neutron-rich nucleus than that of the RCHB calculations, and the RCHB calculations have larger neutron root-mean-square (rms) radii systematically in N >= 40 than those of the Skyrme HFB calculations. The former difference comes from difference in shell structure. The reasons for the latter can be partly explained by the neutron 3s1/2 orbit, which causes more than 50% of the difference among the four calculations for neutron rms radii at 66Ca., 11 pages, 13 figures

Published

2006

32. Silencing of LncRNA TCONS_00088786 reduces renal fibrosis through miR-132.

Author

ZHOU, S.-G., ZHANG, W., MA, H.-J., GUO, Z.-Y., and XU, Y.

Abstract

OBJECTIVE: To examine the role of long non-coding ribonucleic acid (LncRNA) TCONS_00088786 in the development of renal interstitial fibrosis and its potential mechanism in this process. MATERIALS AND METHODS: Unilateral ureteral obstruction (UUO) was used to induce tubulointerstitial fibrosis. Masson staining showed the degree of renal fibrosis in UUO mice. Immunohistochemistry and immunofluorescence were performed to detect the fibrosis-related proteins, the 24-h urine volume and protein content. The renal functions were reflected via serum creatinine (Scr) and blood urea nitrogen (BUN). Changes in lncRNATCONS_00088786, miR-132 and collagen I and III in the development process of renal fibrosis were detected through reverse transcription-polymerase chain reaction (RT-PCR). Small interfering RNA (siRNA) was transfected into NRK52E cells to mimic the knockdown. Western blot was adopted to detect the changes in miR-132, collagen I and III after the siRNA was transfected by transforming growth factor-β (TGF-β) for 24 h. RESULTS: W ith t he d evelopment o f r enal fi - brosis, lncRNA TCONS_00088786 and miR-132 were increased gradually. After the knockdown of lncRNA TCONS_00088786, miR-132 was decreased and fibrosis-related protein was also decreased. CONCLUSIONS: Decreased lncRNA TCONS _00088786 inhibits renal interstitial fibrosis by reducing miR-132 and it may be a potential novel molecular target for the treatment of renal interstitial fibrosis. [ABSTRACT FROM AUTHOR]

Published

2018

33. Multi chiral-doublets in one single nucleus

Author

Meng, J., Peng, J., Zhang, S. Q., and Zhou, S. -G.

Subjects

Nuclear Theory (nucl-th), Nuclear Theory, High Energy Physics::Phenomenology, FOS: Physical sciences, Nuclear Experiment

Abstract

Adiabatic and configuration-fixed constraint triaxial relativistic mean field (RMF) approaches are developed for the first time and a new phenomenon, the existence of multi chiral-doublets (M$\chi$D), i.e., more than one pairs of chiral doublets bands in one single nucleus, is suggested for nuclei in A~100 region, typically for $^{106}$Rh, based on the triaxial deformations together with their corresponding proton and neutron configurations., Comment: 10 pages, 4 figures

Published

2005

34. Shaped Beam Synthesis Based on Superposition Principle and Taylor Method.

Author

Li, J.-Y., Qi, Y.-X., and Zhou, S.-G.

Subjects

ANTENNA arrays, ANTENNA radiation patterns, ELECTRONIC excitation, SHAPED beam antennas, FOURIER transforms, PARTICLE swarm optimization

Abstract

A technique for the synthesis of shaped beam radiation patterns is proposed. The new synthesis method is based on superposition principle and Taylor method. The method may control the sidelobe level of the shaped beam. The approach includes four steps: 1) get the distribution of pencil beam array with low sidelobe by Taylor method; 2) let the beams scan as a phased array to the specific angles according to the requirement of the shaped beam, The sum pattern is close to the shaping beam; 3) determine the value of angles and weights; and 4) count the distribution of the shaped beam array according to the new array factor function. Numerical results are provided to assess the capabilities of the proposed design method. The method develops an effective approach for the synthesis of shaped beams via uniform linear arrays. Both the ripple and sidelobe level of shaped beam may be controlled by the new synthesis method. [ABSTRACT FROM AUTHOR]

Published

2017

35. INFLUENCE OF PROPERTIES OF SUPERHEAVY NUCLEI ON THEIR α DECAYS.

Author

ADAMIAN, G. G., ANTONENKO, N. V., BEZBAKH, A. N., JOLOS, R. V., MALOV, L. A., WANG, K., ZHOU, S.-G., and LENSKE, H.

Subjects

SELF-consistent field theory, MICROSCOPY, SUPERHEAVY elements, RADIOACTIVE decay, NUCLEAR structure

Abstract

The structure of superheavy nuclei is considered with the microscopic- macroscopic approach based on the two-center shell model. The shell effects are compared with those obtained in the self-consistent approaches. The α-decay chains of 291,293Ts and 288Mc are considered. [ABSTRACT FROM AUTHOR]

Published

2017

36. New effective interactions in RMF theory with non-linear terms and density-dependent meson-nucleon coupling

Author

Long, W., Meng, J., van Giai, Nguyen, Zhou, S G., Institut de Physique Nucléaire d'Orsay (IPNO), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), and Robert, Suzanne

Subjects

[PHYS.NUCL] Physics [physics]/Nuclear Theory [nucl-th], Nuclear Theory (nucl-th), Nuclear Theory, [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], FOS: Physical sciences, Nuclear Experiment

Abstract

New parameter sets for the Lagrangian density in the relativistic mean field (RMF) theory, PK1 with nonlinear sigma- and omega-meson self-coupling, PK1R with nonlinear sigma-, omega- and rho-meson self-coupling and PKDD with the density-dependent meson-nucleon coupling, are proposed. They are able to provide an excellent description not only for the properties of nuclear matter but also for the nuclei in and far from the valley of beta-stability. For the first time in the parametrization of the RMF Lagrangian density, the center-of-mass correction is treated by a microscopic way, which is essential to unify the description of nuclei from light to heavy regions with one effective interaction., 22 pages, 16 EPS figures, RevTeX4

Published

2004

37. Isospin and Z$^{1/3}$ Dependence of the Nuclear Charge Radii

Author

Zhang, S. Q., Meng, J., Zhou, S. -G., and Zeng, J. Y.

Subjects

Nuclear Theory (nucl-th), Nuclear Theory, FOS: Physical sciences, Nuclear Experiment

Abstract

Based on the systematic investigation of the data available for $A \geq 40$, a $Z^{1/3}$ dependence for the nuclear charge radii is shown to be superior to the generally accepted $A^{1/3}$ law. A delicate scattering of data around $R_c/Z^{1/3}$ is infered as owing to the isospin effect and a linear dependence of $R_c/Z^{1/3}$ on $N/Z$ (or $(N-Z)/2$) is found. This inference is well supported by the microscopic Relativistic Continuum Hartree-Bogoliubov (RCHB) calculation conducted for the proton magic Ca, Ni, Zr, Sn and Pb isotopes including the exotic nuclei close to the neutron drip line. With the linear isospin dependence provided by the data and RCHB theory, a new isospin dependent $Z^{1/3}$ formula for the nuclear charge radii is proposed., 10 pages, 4 figures

Published

2001

38. Ablation of carbohydrate-responsive element-binding protein improves kidney injury in streptozotocin-induced diabetic mice.

Author

ZHANG, W., LI, X., and ZHOU, S.-G.

Abstract

OBJECTIVE: Carbohydrate-responsive element-binding protein (ChREBP) has been reported to regulate glucose and lipids metabolism in the liver. However, its role in the complicated pathophysiology of diabetic nephropathy is not understood. MATERIALS AND METHODS: C57BL/6 mice treated with streptozotocin (STZ) or vehicle control to induce diabetic models. The mRNA and protein levels of ChREBP in kidneys of control and diabetic mice were determined by real-time PCR or Western Blot, respectively. The expression of inflammatory and endoplasmic reticulum stress markers in ChREBP deficient or Wild-type mice was also determined by real-time PCR or Western Blot. Urine was collected over 16 hours on the day prior to sacrifice, and albuminuria and urine creatinine were determined by Elisa or Creatinine Assay Kit. RESULTS: We found that expression of ChREBP and its downstream target genes were up-regulated in C57BL/6 mice with diabetic nephropathy. Subsequently, we demonstrated that ChREBP knockout mice were protected against the development of diabetic nephropathy induced by streptozotocin (STZ), showing less albuminuria, inflammation and glomerular hypertrophy as compared to diabetic wild-type mice. Reduced expression of inflammatory and endoplasmic reticulum stress markers were also observed in ChREBP deficient mice. CONCLUSIONS: Our data indicate that ablation or inhibition of ChREBP might improve kidney injury in streptozotocin-induced diabetic animals. [ABSTRACT FROM AUTHOR]

Published

2017

39. Strength Degradation of Adhesively Bonded Single-Lap Joints in a Cyclic-Temperature Environment Using a Cohesive Zone Model.

Author

Hu, P., Shi, Z. W., Wang, X. X., Li, W. D., Zhou, S. G., and Han, X.

Subjects

CARBON fiber-reinforced plastics, ENVIRONMENTAL degradation research, FINITE element method, LAP joints, SCANNING electron microscopy, COHESIVE strength (Mechanics)

Abstract

Adhesively bonded joints are widely used in automotive industry. Adhesively bonded joints permit to have more uniform stress distributions, join complex shapes, and reduce the weight of the structures. The requirement to reduce the weight of automobiles is also increasing the application of composites. In this article, CFRP (carbon fiber-reinforced plastics) composite was used in experimental tests. In many cases, adverse environments cause non-negligible degradation in joints mechanical performance. So a combined experimental–numerical approach was developed to characterize the effect of cyclic-temperature environment on adhesively bonded joints. Experimental tests were carried out on single-lap joints with CFRP and steel adherend in a cyclic-temperature environment. A cohesive zone model was taken into consideration to predict the results observed during the experimental tests and an environmental degradation model was developed. Scanning electron microscopy was utilized to investigate the fracture surfaces. [ABSTRACT FROM PUBLISHER]

Published

2015

40. INFLUENCE OF SHELL STRUCTURE ON LEVEL DENSITIES OF SUPERHEAVY NUCLEI.

Author

BEZBAKH, A. N., SHNEIDMAN, T. M., ADAMIAN, G. G., ANTONENKO, N. V., and ZHOU, S.-G.

Subjects

HEAVY nuclei, ENERGY level densities, DECAY chains, EXCITATION energy (In situ microanalysis), NUCLEAR shell theory

Abstract

The intrinsic level densities of superheavy nuclei in the α-decay chains of 296;298;300120 nuclei are calculated using the single-particle spectra obtained with the modified two-center shell model. The level density parameters are extracted and compared with their phenomenological values used in the calculations of the survival of excited heavy nuclei. The dependences of the level density parameters on the mass and charge numbers as well as on the ground-state shell corrections are studied. [ABSTRACT FROM AUTHOR]

Published

2015

41. Covariant density functional theory and applications in nuclear physics and r-process.

Author

Zhao, P. W., Li, L. L., Li, Z. P., Niu, Z. M., Ring, P., Yao, J. M., Zhou, S. G., and Meng, J.

Subjects

DENSITY functionals, FUNCTIONAL analysis, ASTROPHYSICS, NUCLEAR physics, RADIOACTIVE decay, NEUTRONS

Abstract

The covariant density functional theory (CDFT) with a few number of parameters allows a very successful description of the properties of nuclei all over the nuclear chart. The recent progress on the application of the CDFT as well as its extensions for a series of interesting and hot topics in nuclear structure and nuclear astrophysics are summarized. In particular, the newly proposed point-coupling parametrization PC-PK1 and the application of the CDFT to the single particle level of the radioactive neutron-rich doubly magic nucleus 132Sn, the deformed halo in nuclei, and the β decay life-time of neutron rich nuclei are discussed in details. [ABSTRACT FROM AUTHOR]

Published

2012

42. SYSTEMATIC STUDY OF SURVIVAL PROBABILITY OF EXCITED SUPERHEAVY NUCLEI.

Author

XIA, C. J., SUN, B. X., ZHAO, E. G., and ZHOU, S. G.

Subjects

NEUTRONS, NUCLEAR fission, HEAVY elements, HEAVY nuclei, NUCLEAR reactions

Published

2011

43. SHAPE COEXISTENCE AND SHAPE EVOLUTION IN 157Yb.

Author

HUA, H., XU, C., LI, X. Q., MENG, J., XU, F. R., SHI, Y., ZHANG, S. Q., LI, Z. Y., ZHU, L. H., WU, X. G., LI, G. S., HE, C. Y., ZHOU, S. G., and Wang, S. Y.

Subjects

QUADRUPOLES, NUCLEAR physics, QUANTUM theory, CRYSTAL structure, ELECTRONS

Published

2011

44. NUCLEAR STRUCTURE AND ASTROPHYSICS r-PROCESS WITH COVARIANT DENSITY FUNCTIONAL THEORY.

Author

MENG, J., LONG, W. H., NIU, Z. M., SUN, B., and ZHOU, S. G.

Subjects

ASTROPHYSICS, DENSITY functional theory, COVARIANT field theories, NEUTRONS, NUCLEOSYNTHESIS

Published

2010

45. DEFORMED RELATIVISTIC HARTREE-BOGOLIUBOV MODEL FOR EXOTIC NUCLEI.

Author

ZHOU, S. G., MENG, J., and RING, P.

Subjects

RELATIVISTIC astrophysics, NUCLEAR reactions, NUCLEAR physics, NUCLEAR structure, NUCLEAR models

Published

2008

46. SYNTHESIS OF SUPER-HEAVY NUCLEI IN A MODIFIED DI-NUCLEAR SYSTEM MODEL.

Author

ZHAO, E. G., LI, J. Q., ZHOU, S. G., ZUO, W., and SCHEID, W.

Subjects

HEAVY nuclei, NUCLEAR models, HEAVY ion fusion reactions, NUCLEAR spin, NUCLEAR reactions

Published

2008

47. NEW INTERACTIONS, EXOTIC PHENOMENA AND SPIN SYMMETRY FOR ANTI-NUCLEON SPECTRUM IN RELATIVISTIC APPROACH.

Author

MENG, J., BAN, S. F., GENG, L. S., GUO, J. Y., LI, J., LONG, W. H., LÜ, H. F., PENG, J., SHEN, G., ZHANG, S. Q., ZHANG, S. S., ZHANG, W., and ZHOU, S. G.

Subjects

NUCLEAR physics, EXOTIC nuclei, ATOMIC nucleus, NEUTRON stars, HARMONIC oscillators

Published

2005

48. Covariant density functional theory for exotic nuclei near the neutron drip-line.

Author

Chen, Y, Li, L L, Li, Z P, Liang, H Z, Long, W H, Ring, P, Giai, N Van, Yao, J M, Zhang, S Q, Zhang, Y, Zhao, P W, Zhou, S G, and Meng, J

Published

2013

49. A Novel "Buried-on-Wall" Antenna for Indoor Communication Applications.

Author

Sun, L., Zhou, S.-G., Zuo, S.-L., and Liu, Q.-Z.

Subjects

*ANTENNAS (Electronics), *BROADBAND communication systems, *DATA transmission systems, *CODE division multiple access, *IEEE 802.16 (Standard), *GSM communications, *ENERGY bands

Abstract

A novel, "buried-on-wall" and wideband antenna for indoor communication applications is proposed. The antenna is low in profile (H = 0.093λmax = 0.35λmin) and has impedance bandwidth of about 116% ranging from 800 MHz to 3 GHz (VSWR < 2), making it easy to cover the GSM/DCS/PCS/UMTSIMT/Wibro/CDMA/WiMAX bands for indoor applications. The radiation patterns are satisfactory, and antenna gain is about 5 dBi across the operating band. The measured results are presented. [ABSTRACT FROM AUTHOR]

Published

2011

50. Fast and Accurate Analysis of Variable Thick Wire Structure Antennas.

Author

Sun, L., Zhou, S.-G., Liu, Q.-Z., and Guo, J.-L.

Subjects

*MOMENTS method (Statistics), *ELECTRIC wire, *ANTENNAS (Electronics), *SYMMETRY (Physics), *INTERPOLATION, *MICROFABRICATION, *RADIAL basis functions, *ELECTRIC displacement

Abstract

A new method of moments (MoM) is presented to analyze variable thick wire structure (VTWS) antennas. For the symmetric property of VTWS the antenna can be modeled with rings, and the electric flux density on it can be expanded with sinusoidal interpolation basis function. Utilizing exact thick kernel together the VTWS antenna can be analyzed by MoM with much less time than other full wave methods. To verify the validity of this technique, a conical antenna is analyzed and fabricated. The good results show the efficiency and accuracy of the method presented. A more complicated VTWS antenna composed of cylindrical discal and curvilinear tapered sections is also carried out to verify the general adaption of the method. [ABSTRACT FROM AUTHOR]

Published

2010