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1,729 results on '"Zhao, H. W."'

1. Demonstration of High-Efficiency Microwave Heating Producing Record Highly Charged Xenon Ion Beams with Superconducting ECR Ion Sources

Author

Wang, X., Li, J. B., Mironov, V., Guo, J. W., Zhang, X. Z., Tarvainen, O., Feng, Y. C., Li, L. X., Ma, J. D., Zhang, Z. H., Lu, W., Bogomolov, S., Sun, L., and Zhao, H. W.

Subjects
Physics - Accelerator Physics, Physics - Plasma Physics
Abstract

Intense highly charged ion beam production is essential for high-power heavy ion accelerators. A novel movable Vlasov launcher for superconducting high charge state Electron Cyclotron Resonance (ECR) ion source has been devised that can affect the microwave power effectiveness by a factor of about 4 in terms of highly charged ion beam production. This approach based on a dedicated microwave launching system instead of the traditional coupling scheme has led to new insight on microwave-plasma interaction. With this new understanding, the world record highly charged xenon ion beam currents have been enhanced by up to a factor of 2, which could directly and significantly enhance the performance of heavy ion accelerators and provide many new research opportunities in nuclear physics, atomic physics and other disciplines.

Published
2024
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2. Demonstration of electron cooling using a pulsed beam from an electrostatic electron cooler

Author

Bruker, M. W., Benson, S., Hutton, A., Jordan, K., Powers, T., Rimmer, R., Satogata, T., Sy, A., Wang, H., Wang, S., Zhang, H., Zhang, Y., Ma, F., Li, J., Ma, X. M., Mao, L. J., Sha, X. P., Tang, M. T., Yang, J. C., Yang, X. D., Zhao, H., and Zhao, H. W.

Subjects
Physics - Accelerator Physics
Abstract

Cooling of hadron beams is critically important in the next generation of hadron storage rings for delivery of unprecedented performance. One such application is the electron-ion collider presently under development in the US. The desire to develop electron coolers for operation at much higher energies than previously achieved necessitates the use of radio-frequency (RF) fields for acceleration as opposed to the conventional, electrostatic approach. While electron cooling is a mature technology at low energy utilizing a DC beam, RF acceleration requires the cooling beam to be bunched, thus extending the parameter space to an unexplored territory. It is important to experimentally demonstrate the feasibility of cooling with electron bunches and further investigate how the relative time structure of the two beams affects the cooling properties; thus, a set of four pulsed-beam cooling experiments was carried out by a collaboration of Jefferson Lab and Institute of Modern Physics (IMP). The experiments have successfully demonstrated cooling with a beam of electron bunches in both the longitudinal and transverse directions for the first time. We have measured the effect of the electron bunch length and longitudinal ion focusing strength on the temporal evolution of the longitudinal and transverse ion beam profile and demonstrate that if the synchronization can be accurately maintained, the dynamics are not adversely affected by the change in time structure., Comment: 13 pages, 19 figures. Submitted to Physical Review Accelerators and Beams

Published
2020
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3. Masses of neutron-rich $^{\operatorname{52-54}}$Sc and $^{54,56}$Ti nuclides: The $N=32$ subshell closure in scandium

Author

Xu, X., Wang, M., Blaum, K., Holt, J. D., Litvinov, Yu. A., Schwenk, A., Simonis, J., Stroberg, S. R., Zhang, Y. H., Xu, H. S., Shuai, P., Tu, X. L., Zhou, X. H., Xu, F. R., Audi, G., Chen, R. J., Chen, X. C., Fu, C. Y., Ge, Z., Huang, W. J., Litvinov, S., Liu, D. W., Lam, Y. H., Ma, X. W., Mao, R. S., Ozawa, A., Sun, B. H., Sun, Y., Uesaka, T., Xiao, G. Q., Xing, Y. M., Yamaguchi, T., Yamaguchi, Y., Yan, X. L., Zeng, Q., Zhao, H. W., Zhao, T. C., Zhang, W., and Zhan, W. L.

Subjects
Nuclear Experiment
Abstract

Isochronous mass spectrometry has been applied in the storage ring CSRe to measure the masses of the neutron-rich $^{\operatorname{52-54}}$Sc and $^{54,56}$Ti nuclei. The new mass excess values $ME$($^{52}$Sc) $=$ $-40525(65)$ keV, $ME$($^{53}$Sc) $=$ $-38910(80)$ keV, and $ME$($^{54}$Sc) $=$ $-34485(360)$ keV, deviate from the Atomic Mass Evaluation 2012 by 2.3$\sigma$, 2.8$\sigma$, and 1.7$\sigma$, respectively. These large deviations significantly change the systematics of the two-neutron separation energies of scandium isotopes. The empirical shell gap extracted from our new experimental results shows a significant subshell closure at $N = 32$ in scandium, with a similar magnitude as in calcium. Moreover, we present $ab$ $initio$ calculations using the valence-space in-medium similarity renormalization group based on two- and three-nucleon interactions from chiral effective field theory. The theoretical results confirm the existence of a substantial $N = 32$ shell gap in Sc and Ca with a decreasing trend towards lighter isotones, thus providing a consistent picture of the evolution of the $N = 32$ magic number from the $pf$ into the $sd$ shell., Comment: 6 pages, 5figures, accepted by Physical Review C

Published
2019
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4. Application of isochronous mass spectrometry for the study of angular momentum population in projectile fragmentation reactions

Author

Tu, X. L., Kelic-Heil, A., Litvinov, Yu. A., Podolyak, Zs., Zhang, Y. H., Huang, W. J., Xu, H. S., Blaum, K., Bosch, F., Chen, R. J., Chen, X. C., Fu, C. Y., Gao, B. S., Ge, Z., Hu, Z. G., Liu, D. W., Litvinov, S. A., Ma, X. W., Mao, R. S., Mei, B., Shuai, P., Sun, B. H., Sun, Y., Sun, Z. Y., Walker, P. M., Wang, M., Winckler, N., Xia, J. W., Xiao, G. Q., Xing, Y. M., Xu, X., Yamaguchi, T., Yan, X. L., Yang, J. C., Yuan, Y. J., Zeng, Q., Zhang, W., Zhao, H. W., Zhao, T. C., and Zhou, X. H.

Subjects
Nuclear Experiment
Abstract

Isochronous mass spectrometry was applied to measure isomeric yield ratios of fragmentation reaction products. This approach is complementary to conventional gamma-ray spectroscopy in particular for measuring yield ratios for long-lived isomeric states. Isomeric yield ratios for the high-spin I = 19/2 states in the mirror nuclei 53Fe and 53Co are measured to study angular momentum population following the projectile fragmentation of 78Kr at energies of 480A MeV on a beryllium target. The 19/2 state isomeric ratios of 53Fe produced from different projectiles in the literature have also been extracted as a function of mass number difference between projectile and fragment (mass loss). The results are compared to ABRABLA07 model calculations. The isomeric ratios of 53Fe produced using different projectiles suggest that the theory underestimates not only the previously reported dependence on the spin but also the dependence on the mass loss., Comment: 6 pages, 5 figures

Published
2018
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7. The Physics of the B Factories

Author

Bevan, A. J., Golob, B., Mannel, Th., Prell, S., Yabsley, B. D., Abe, K., Aihara, H., Anulli, F., Arnaud, N., Aushev, T., Beneke, M., Beringer, J., Bianchi, F., Bigi, I. I., Bona, M., Brambilla, N., rodzicka, J. B, Chang, P., Charles, M. J., Cheng, C. H., Cheng, H. -Y., Chistov, R., Colangelo, P., Coleman, J. P., Drutskoy, A., Druzhinin, V. P., Eidelman, S., Eigen, G., Eisner, A. M., Faccini, R., Flood, K. T ., Gambino, P., Gaz, A., Gradl, W., Hayashii, H., Higuchi, T., Hulsbergen, W. D., Hurth, T., Iijima, T., Itoh, R., Jackson, P. D., Kass, R., Kolomensky, Yu. G., Kou, E., Križan, P., Kronfeld, A., Kumano, S., Kwon, Y. J., Latham, T. E., Leith, D. W. G. S., Lüth, V., Martinez-Vidal, F., Meadows, B. T., Mussa, R., Nakao, M., Nishida, S., Ocariz, J., Olsen, S. L., Pakhlov, P., Pakhlova, G., Palano, A., Pich, A., Playfer, S., Poluektov, A., Porter, F. C., Robertson, S. H., Roney, J. M., Roodman, A., Sakai, Y., Schwanda, C., Schwartz, A. J., Seidl, R., Sekula, S. J., Steinhauser, M., Sumisawa, K., Swanson, E. S., Tackmann, F., Trabelsi, K., Uehara, S., Uno, S., van der Water, R., Vasseur, G., Verkerke, W., Waldi, R., Wang, M. Z., Wilson, F. F., Zupan, J., Zupanc, A., Adachi, I., Albert, J., Banerjee, Sw., Bellis, M., Ben-Haim, E., Biassoni, P., Cahn, R. N., Cartaro, C., Chauveau, J., Chen, C., Chiang, C. C., Cowan, R., Dalseno, J., Davier, M., Davies, C., Dingfelder, J. C., nard, B. Eche, Epifanov, D., Fulsom, B. G., Gabareen, A. M., Gary, J. W., Godang, R., Graham, M. T., Hafner, A., Hamilton, B., Hartmann, T., Hayasaka, K., Hearty, C., Iwasaki, Y., Khodjamirian, A., Kusaka, A., Kuzmin, A., Lafferty, G. D., Lazzaro, A., Li, J., Lindemann, D., Long, O., Lusiani, A., Marchiori, G., Martinelli, M., Miyabayashi, K., Mizuk, R., Mohanty, G. B., Muller, D. R., Nakazawa, H., Ongmongkolkul, P., Pacetti, S., Palombo, F., Pedlar, T. K., Piilonen, L. E., Pilloni, A., Poireau, V., Prothmann, K., Pulliam, T., Rama, M., Ratcliff, B. N., Roudeau, P., Schrenk, S., Schroeder, T., Schubert, K. R., Shen, C. P., Shwartz, B., Soffer, A., Solodov, E. P., Somov, A., Starič, M., Stracka, S., Telnov, A. V., Todyshev, K. Yu., Tsuboyama, T., Uglov, T., Vinokurova, A., Walsh, J. J., Watanabe, Y., Won, E., Wormser, G., Wright, D. H., Ye, S., Zhang, C. C., Abachi, S., Abashian, A., Abe, N., Abe, R., Abe, T., Abrams, G. S., Adam, I., Adamczyk, K., Adametz, A., Adye, T., Agarwal, A., Ahmed, H., Ahmed, M., Ahmed, S., Ahn, B. S., Ahn, H. S., Aitchison, I. J. R., Akai, K., Akar, S., Akatsu, M., Akemoto, M., Akhmetshin, R., Akre, R., Alam, M. S., Albert, J. N., Aleksan, R., Alexander, J. P., Alimonti, G., Allen, M. T., Allison, J., Allmendinger, T., Alsmiller, J. R. G., Altenburg, D., Alwyn, K. E., An, Q., Anderson, J., Andreassen, R., Andreotti, D., Andreotti, M., Andress, J. C., Angelini, C., Anipko, D., Anjomshoaa, A., Anthony, P. L., Antillon, E. A., Antonioli, E., Aoki, K., Arguin, J. F., Arinstein, K., Arisaka, K., Asai, K., Asai, M., Asano, Y., Asgeirsson, D. J., Asner, D. M., Aso, T., Aspinwall, M. L., Aston, D., Atmacan, H., Aubert, B., Aulchenko, V., Ayad, R., Azemoon, T., Aziz, T., Azzolini, V., Azzopardi, D. E., Baak, M. A., Back, J. J., Bagnasco, S., Bahinipati, S., Bailey, D. S., Bailey, S., Bailly, P., van Bakel, N., Bakich, A. M., Bala, A., Balagura, V., Baldini-Ferroli, R., Ban, Y., Banas, E., Band, H. R., Banerjee, S., Baracchini, E., Barate, R., Barberio, E., Barbero, M., Bard, D. J., Barillari, T., Barlow, N. R., Barlow, R. J., Barrett, M., Bartel, W., Bartelt, J., Bartoldus, R., Batignani, G., Battaglia, M., Bauer, J. M., Bay, A., Beaulieu, M., Bechtle, P., Beck, T. W., Becker, J., Becla, J., Bedny, I., Behari, S., Behera, P. K., Behn, E., Behr, L., Beigbeder, C., Beiline, D., Bell, R., Bellini, F., Bellodi, G., Belous, K., Benayoun, M., Benelli, G., Benitez, J. F., Benkebil, M., Berger, N., Bernabeu, J., Bernard, D., Bernet, R., Bernlochner, F. U., Berryhill, J. W., Bertsche, K., Besson, P., Best, D. S., Bettarini, S., Bettoni, D., Bhardwaj, V., Bhimji, W., Bhuyan, B., Biagini, M. E., Biasini, M., van Bibber, K., Biesiada, J., Bingham, I., Bionta, R. M., Bischofberger, M., Bitenc, U., Bizjak, I., Blanc, F., Blaylock, G., Blinov, V. E., Bloom, E., Bloom, P. C., Blount, N. L., Blouw, J., Bly, M., Blyth, S., Boeheim, C. T., Bomben, M., Bondar, A., Bondioli, M., Bonneaud, G. R., Bonvicini, G., Booke, M., Booth, J., Borean, C., Borgland, A. W., Borsato, E., Bosi, F., Bosisio, L., Botov, A. A., Bougher, J., Bouldin, K., Bourgeois, P., Boutigny, D., Bowerman, D. A., Boyarski, A. M., Boyce, R. F., Boyd, J. T., Bozek, A., Bozzi, C., Bračko, M., Brandenburg, G., Brandt, T., Brau, B., Brau, J., Breon, A. B., Breton, D., Brew, C., Briand, H., Bright-Thomas, P. G., Brigljević, V., Britton, D. I., Brochard, F., Broomer, B., Brose, J., Browder, T. E., Brown, C. L., Brown, C. M., Brown, D. N., Browne, M., Bruinsma, M., Brunet, S., Bucci, F., Buchanan, C., Buchmueller, O. L., Bünger, C., Bugg, W., Bukin, A. D., Bula, R., Bulten, H., Burchat, P. R., Burgess, W., Burke, J. P., Button-Shafer, J., Buzykaev, A. R., Buzzo, A., Cai, Y., Calabrese, R., Calcaterra, A., Calderini, G., Camanzi, B., Campagna, E., Campagnari, C., Capra, R., Carassiti, V., Carpinelli, M., Carroll, M., Casarosa, G., Casey, B. C. K., Cason, N. M., Castelli, G., Cavallo, N., Cavoto, G., Cecchi, A., Cenci, R., Cerizza, G., Cervelli, A., Ceseracciu, A., Chai, X., Chaisanguanthum, K. S., Chang, M. C., Chang, Y. H., Chang, Y. W., Chao, D. S., Chao, M., Chao, Y., Charles, E., Chavez, C. A., Cheaib, R., Chekelian, V., Chen, A., Chen, E., Chen, G. P., Chen, H. F., Chen, J. -H., Chen, J. C., Chen, K. F., Chen, P., Chen, S., Chen, W. T., Chen, X., Chen, X. R., Chen, Y. Q., Cheng, B., Cheon, B. G., Chevalier, N., Chia, Y. M., Chidzik, S., Chilikin, K., Chistiakova, M. V., Cizeron, R., Cho, I. S., Cho, K., Chobanova, V., Choi, H. H. F., Choi, K. S., Choi, S. K., Choi, Y., Choi, Y. K., Christ, S., Chu, P. H., Chun, S., Chuvikov, A., Cibinetto, G., Cinabro, D., Clark, A. R., Clark, P. J., Clarke, C. K., Claus, R., Claxton, B., Clifton, Z. C., Cochran, J., Cohen-Tanugi, J., Cohn, H., Colberg, T., Cole, S., Colecchia, F., Condurache, C., Contri, R., Convert, P., Convery, M. R., Cooke, P., Copty, N., Cormack, C. M., Corso, F. Dal, Corwin, L. A., Cossutti, F., Cote, D., Ramusino, A. Cotta, Cottingham, W. N., Couderc, F., Coupal, D. P., Covarelli, R., Cowan, G., Craddock, W. W., Crane, G., Crawley, H. B., Cremaldi, L., Crescente, A., Cristinziani, M., Crnkovic, J., Crosetti, G., Cuhadar-Donszelmann, T., Cunha, A., Curry, S., D'Orazio, A., Dû, S., Dahlinger, G., Dahmes, B., Dallapiccola, C., Danielson, N., Danilov, M., Das, A., Dash, M., Dasu, S., Datta, M., Daudo, F., Dauncey, P. D., David, P., Davis, C. L., Day, C. T., De Mori, F., De Domenico, G., De Groot, N., De la Vaissière, C., de la Vaissière, Ch., de Lesquen, A., De Nardo, G., de Sangro, R., De Silva, A., DeBarger, S., Decker, F. J., Sanchez, P. del Amo, Del Buono, L., Del Gamba, V., del Re, D., Della Ricca, G., Denig, A. G., Derkach, D., Derrington, I. M., DeStaebler, H., Destree, J., Devmal, S., Dey, B., Di Girolamo, B., Di Marco, E., Dickopp, M., Dima, M. O., Dittrich, S., Dittongo, S., Dixon, P., Dneprovsky, L., Dohou, F., Doi, Y., Doležal, Z., Doll, D. A., Donald, M., Dong, L., Dong, L. Y., Dorfan, J., Dorigo, A., Dorsten, M. P., Dowd, R., Dowdell, J., Drásal, Z., Dragic, J., Drummond, B. W., Dubitzky, R. S., Dubois-Felsmann, G. P., Dubrovin, M. S., Duh, Y. C., Duh, Y. T., Dujmic, D., Dungel, W., Dunwoodie, W., Dutta, D., Dvoretskii, A., Dyce, N., Ebert, M., Eckhart, E. A., Ecklund, S., Eckmann, R., Eckstein, P., Edgar, C. L., Edwards, A. J., Egede, U., Eichenbaum, A. M., Elmer, P., Emery, S., Enari, Y., Enomoto, R., Erdos, E., Erickson, R., Ernst, J. A., Erwin, R. J., Escalier, M., Eschenburg, V., Eschrich, I., Esen, S., Esteve, L., Evangelisti, F., Everton, C. W., Eyges, V., Fabby, C., Fabozzi, F., Fahey, S., Falbo, M., Fan, S., Fang, F., Fanin, C., Farbin, A., Farhat, H., Fast, J. E., Feindt, M., Fella, A., Feltresi, E., Ferber, T., Fernholz, R. E., Ferrag, S., Ferrarotto, F., Ferroni, F., Field, R. C., Filippi, A., Finocchiaro, G., Fioravanti, E., da Costa, J. Firmino, Fischer, P. -A., Fisher, A., Fisher, P. H., Flacco, C. J., Flack, R. L., Flaecher, H. U., Flanagan, J., Flanigan, J. M., Ford, K. E., Ford, W. T., Forster, I. J., Forti, A. C., Forti, F., Fortin, D., Foster, B., Foulkes, S. D., Fouque, G., Fox, J., Franchini, P., Sevilla, M. Franco, Franek, B., Frank, E. D., Fransham, K. B., Fratina, S., Fratini, K., Frey, A., Frey, R., Friedl, M., Fritsch, M., Fry, J. R., Fujii, H., Fujikawa, M., Fujita, Y., Fujiyama, Y., Fukunaga, C., Fukushima, M., Fullwood, J., Funahashi, Y., Funakoshi, Y., Furano, F., Furman, M., Furukawa, K., Futterschneider, H., Gabathuler, E., Gabriel, T. A., Gabyshev, N., Gaede, F., Gagliardi, N., Gaidot, A., Gaillard, J. -M., Gaillard, J. R., Galagedera, S., Galeazzi, F., Gallo, F., Gamba, D., Gamet, R., Gan, K. K., Gandini, P., Ganguly, S., Ganzhur, S. F., Gao, Y. Y., Gaponenko, I., Garmash, A., Tico, J. Garra, Garzia, I., Gaspero, M., Gastaldi, F., Gatto, C., Gaur, V., Geddes, N. I., Geld, T. L., Genat, J. -F., George, K. A., George, M., George, S., Georgette, Z., Gershon, T. J., Gill, M. S., Gillard, R., Gilman, J. D., Giordano, F., Giorgi, M. A., Giraud, P. -F., Gladney, L., Glanzman, T., Glattauer, R., Go, A., Goetzen, K., Goh, Y. M., Gokhroo, G., Goldenzweig, P., Golubev, V. B., Gopal, G. P., Gordon, A., Gorišek, A., Goriletsky, V. I., Gorodeisky, R., Gosset, L., Gotow, K., Gowdy, S. J., Graffin, P., Grancagnolo, S., Grauges, E., Graziani, G., Green, M. G., Greene, M. G., Grenier, G. J., Grenier, P., Griessinger, K., Grillo, A. A., Grinyov, B. V., Gritsan, A. V., Grosdidier, G., Perdekamp, M. Grosse, Grosso, P., Grothe, M., Groysman, Y., Grünberg, O., Guido, E., Guler, H., Gunawardane, N. J. W., Guo, Q. H., Guo, R. S., Guo, Z. J., Guttman, N., Ha, H., Ha, H. C., Haas, T., Haba, J., Hachtel, J., Hadavand, H. K., Hadig, T., Hagner, C., Haire, M., Haitani, F., Haji, T., Haller, G., Halyo, V., Hamano, K., Hamasaki, H., de Monchenault, G. Hamel, Hamilton, J., Hamilton, R., Hamon, O., Han, B. Y., Han, Y. L., Hanada, H., Hanagaki, K., Handa, F., Hanson, J. E., Hanushevsky, A., Hara, K., Hara, T., Harada, Y., Harrison, P. F., Harrison, T. J., Harrop, B., Hart, A. J., Hart, P. A., Hartfiel, B. L., Harton, J. L., Haruyama, T., Hasan, A., Hasegawa, Y., Hast, C., Hastings, N. C., Hasuko, K., Hauke, A., Hawkes, C. M., Hayashi, K., Hazumi, M., Hee, C., Heenan, E. M., Heffernan, D., Held, T., Henderson, R., Henderson, S. W., Hertzbach, S. S., Hervé, S., Heß, M., Heusch, C. A., Hicheur, A., Higashi, Y., Higasino, Y., Higuchi, I., Hikita, S., Hill, E. J., Himel, T., Hinz, L., Hirai, T., Hirano, H., Hirschauer, J. F., Hitlin, D. G., Hitomi, N., Hodgkinson, M. C., Höcker, A., Hoi, C. T., Hojo, T., Hokuue, T., Hollar, J. J., Hong, T. M., Honscheid, K., Hooberman, B., Hopkins, D. A., Horii, Y., Hoshi, Y., Hoshina, K., Hou, S., Hou, W. S., Hryn'ova, T., Hsiung, Y. B., Hsu, C. L., Hsu, S. C., Hu, H., Hu, T., Huang, H. C., Huang, T. J., Huang, Y. C., Huard, Z., Huffer, M. E., Hufnagel, D., Hung, T., Hutchcroft, D. E., Hyun, H. J., Ichizawa, S., Igaki, T., Igarashi, A., Igarashi, S., Igarashi, Y., Igonkina, O., Ikado, K., Ikeda, H., Ikeda, K., Ilic, J., Inami, K., Innes, W. R., Inoue, Y., Ishikawa, A., Ishino, H., Itagaki, K., Itami, S., Itoh, K., Ivanchenko, V. N., Iverson, R., Iwabuchi, M., Iwai, G., Iwai, M., Iwaida, S., Iwamoto, M., Iwasaki, H., Iwasaki, M., Iwashita, T., Izen, J. M., Jackson, D. J., Jackson, F., Jackson, G., Jackson, P. S., Jacobsen, R. G., Jacoby, C., Jaegle, I., Jain, V., Jalocha, P., Jang, H. K., Jasper, H., Jawahery, A., Jayatilleke, S., Jen, C. M., Jensen, F., Jessop, C. P., Ji, X. B., John, M. J. J., Johnson, D. R., Johnson, J. R., Jolly, S., Jones, M., Joo, K. K., Joshi, N., Joshi, N. J., Judd, D., Julius, T., Kadel, R. W., Kadyk, J. A., Kagan, H., Kagan, R., Kah, D. H., Kaiser, S., Kaji, H., Kajiwara, S., Kakuno, H., Kameshima, T., Kaminski, J., Kamitani, T., Kaneko, J., Kang, J. H., Kang, J. S., Kani, T., Kapusta, P., Karbach, T. M., Karolak, M., Karyotakis, Y., Kasami, K., Katano, G., Kataoka, S. U., Katayama, N., Kato, E., Kato, Y., Kawai, H., Kawai, M., Kawamura, N., Kawasaki, T., Kay, J., Kay, M., Kelly, M. P., Kelsey, M. H., Kent, N., Kerth, L. T., Khan, A., Khan, H. R., Kharakh, D., Kibayashi, A., Kichimi, H., Kiesling, C., Kikuchi, M., Kikutani, E., Kim, B. H., Kim, C. H., Kim, D. W., Kim, H., Kim, H. J., Kim, H. O., Kim, H. W., Kim, J. B., Kim, J. H., Kim, K. T., Kim, M. J., Kim, P., Kim, S. K., Kim, S. M., Kim, T. H., Kim, Y. I., Kim, Y. J., King, G. J., Kinoshita, K., Kirk, A., Kirkby, D., Kitayama, I., Klemetti, M., Klose, V., Klucar, J., Knecht, N. S., Knoepfel, K. J., Knowles, D. J., Ko, B. R., Kobayashi, N., Kobayashi, S., Kobayashi, T., Kobel, M. J., Koblitz, S., Koch, H., Kocian, M. L., Kodyš, P., Koeneke, K., Kofler, R., Koike, S., Koishi, S., Koiso, H., Kolb, J. A., Kolya, S. D., Kondo, Y., Konishi, H., Koppenburg, P., Koptchev, V. B., Kordich, T. M. B., Korol, A. A., Korotushenko, K., Korpar, S., Kouzes, R. T., Kovalskyi, D., Kowalewski, R., Kozakai, Y., Kozanecki, W., Kral, J. F., Krasnykh, A., Krause, R., Kravchenko, E. 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M., Zhulanov, V., Ziegler, T., Ziegler, V., Zioulas, G., Zisman, M., Zito, M., Zürcher, D., Zwahlen, N., Zyukova, O., Živko, T., and Žontar, D.

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

This work is on the Physics of the B Factories. Part A of this book contains a brief description of the SLAC and KEK B Factories as well as their detectors, BaBar and Belle, and data taking related issues. Part B discusses tools and methods used by the experiments in order to obtain results. The results themselves can be found in Part C. Please note that version 3 on the archive is the auxiliary version of the Physics of the B Factories book. This uses the notation alpha, beta, gamma for the angles of the Unitarity Triangle. The nominal version uses the notation phi_1, phi_2 and phi_3. Please cite this work as Eur. Phys. J. C74 (2014) 3026., Comment: 928 pages, version 3 (arXiv:1406.6311v3) corresponds to the alpha, beta, gamma version of the book, the other versions use the phi1, phi2, phi3 notation

Published
2014
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8. Charge and frequency resolved isochronous mass spectrometry in storage rings: First direct mass measurement of the short-lived neutron-deficient $^{51}$Co nuclide

Author

Shuai, P., Xu, H. S., Tu, X. L., Zhang, Y. H., Sun, B. H., Litvinov, Yu. A., Yan, X. L., Blaum, K., Wang, M., Zhou, X. H., He, J. J., Sun, Y., Kaneko, K., Yuan, Y. J., Xia, J. W., Yang, J. C., Audi, G., Chen, X. C., Jia, G. B., Hu, Z. G., Ma, X. W., Mao, R. S., Mei, B., Sun, Z. Y., Wang, S. T., Xiao, G. Q., Xu, X., Yamaguchi, T., Yamaguchi, Y., Zang, Y. D., Zhao, H. W., Zhao, T. C., Zhang, W., and Zhan, W. L.

Subjects
Nuclear Experiment
Abstract

Revolution frequency measurements of individual ions in storage rings require sophisticated timing detectors. One of common approaches for such detectors is the detection of secondary electrons released from a thin foil due to penetration of the stored ions. A new method based on the analysis of intensities of secondary electrons was developed which enables determination of the charge of each ion simultaneously with the measurement of its revolution frequency. Although the mass-over-charge ratios of $^{51}$Co$^{27+}$ and $^{34}$Ar$^{18+}$ ions are almost identical, and therefore, the ions can not be resolved in a storage ring, by applying the new method the mass excess of the short-lived $^{51}$Co is determined for the first time to be ME($^{51}$Co)=-27342(48) keV. Shell-model calculations in the $fp$-shell nuclei compared to the new data indicate the need to include isospin-nonconserving forces.

Published
2014

10. Longitudinal Schottky spectra of a bunched Ne10+ ion beam at the CSRe

Author

Wen, W. Q., Ma, X., Zhang, D. C., Zhu, X. L., Meng, L. J., Li, J., Liu, H. P., Zhao, D. M., Wang, Z. S., Mao, R. S., Zhao, T. C., Wu, J. X., Ma, X. M., Yan, T. L., Li, G. H., Yang, X. D., Liu, Y., Yang, J. C., Yuan, Y. J., Xia, J. W., Xu, H. S., Xiao, G. Q., and Zhao, H. W.

Subjects
Physics - Accelerator Physics
Abstract

The longitudinal Schottky spectra of a radio-frequency (RF) bunched and electron cooled 22Ne10+ ion beam at 70 MeV/u have been studied by a newly installed resonant Schottky pick-up at the experimental cooler storage ring (CSRe), at IMP. For an RF-bunched ion beam, a longitudinal momentum spread of has been reached with less than 107 stored ions. The reduction of momentum spread compared with coasting ion beam was observed from Schottky noise signal of the bunched ion beam. In order to prepare the future laser cooling experiment at the CSRe, the RF-bunching power was modulated at 25th, 50th and 75th harmonic of the revolution frequency, effective bunching amplitudes were extracted from the Schottky spectrum analysis. Applications of Schottky noise for measuring beam lifetime with ultra-low intensity of ion beams are presented, and it is relevant to upcoming experiments on laser cooling of relativistic heavy ion beams and nuclear physics at the CSRe., Comment: to be published in Chinese Physics C

Published
2013
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12. Study of B Decays into the Final State D(*)\pi\pi\pi at BaBar

Author

Zhao, H. W.

Subjects
High Energy Physics - Experiment
Abstract

Based on a data sample of an integrated luminosity of 57.4 fb-1 at the Upsilon(4S) resonance taken with the BaBar detector using the SLAC PEP-II asymmetric-energy $B$-Factory, hadronic decays of B meson with the final states D(*) and three pions are studied. The study is performed by fully reconstructing the exclusive decays of B->D(*)a_{1}(1260) and the non-resonant modes B->D(*)rho^{0} pi and B->D(*)pipipi. The current status of the study is presented and a dominant B->D(*)a_{1}(1260) decay is shown., Comment: Presentation at DPF 2003 Conference (5-8 April 2003, Philadelphia, Pennsylvania), 9 pages, 16 figures, Latex

Published
2004

17. Effect of sintering temperature on the structure and electrical properties of KNNS-0.03BNZ ceramics.

Author

Zhao, H. W., Li, Y. L., Zhao, R. J., and Li, Z. Q.

Subjects
*SINTERING, *CERAMICS, *TEMPERATURE effect, *LEAD-free ceramics, *DIELECTRIC loss, *PERMITTIVITY, *DIELECTRIC properties, *HIGH temperatures
Abstract

(K0.48Na0.52)NbO3-0.03Bi0.5Na0.5ZrO3 (KNNS-0.03BNZ) ceramics were prepared doped with 3 mol% Bi0.5Na0.5ZrO3 (BNZ), and the effect of sintering temperature on dielectric and piezoelectric properties of KNNS-0.03BNZ was also investigated. KNNS-0.03BNZ ceramics at all sintering temperatures exhibit a single perovskite structure, and the change of sintering temperature has no significant effect on the phase composition of KNNS 0.03BNZ ceramics. The Raman shifts of the ν1 and ν5 vibration modes have irregular changes in all sintering temperature ranges, indicating that there are polycrystalline phases coexisting in this region. With the change of sintering temperature, Tc slightly shifts to the high temperature direction, and TR-T slightly shifts to the high temperature direction, dielectric constant εr continuously increases, while dielectric loss tanδ firstly decreasing and then increasing. Thanks to the presence of a small amount of liquid phase in the ceramics sintered at 1160 °C, piezoelectric coefficient d33 reaches 280 pC/N. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Production of intense pulsed beams of highly charged ions from a superconducting electron cyclotron resonance ion source

Author

Li, L. X., primary, Li, J. B., additional, Ma, J. D., additional, Guo, H., additional, Guo, B., additional, Hitz, D., additional, Feng, Y. C., additional, Lu, W., additional, Guo, J. W., additional, Fang, X., additional, Jin, R. N., additional, Yuan, Y. J., additional, Sun, L. T., additional, and Zhao, H. W., additional

Published
2022
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22. APPLICATION OF POTASSIUM FULVIC ACID IMPROVING TOLERANCE OF SECALE CEREALE L. SEEDLINGS TO CADMIUM STRESS AND FREEZE-THAW ENVIRONMENT.

Author

PAN, X. Y., BAO, G. Z., YANG, Y. N., ZHANG, X., GUO, J. C., FAN, X. Y., XIANG, T., LI, G. M., and ZHAO, H. W.

Subjects
RYE, FULVIC acids, CADMIUM, POTASSIUM, SUPEROXIDE dismutase, PHOTOSYNTHETIC rates
Abstract

Freeze-thaw (FT) and cadmium (Cd) are the main ecological stress factors for plant growth in high-latitude regions. Potassium fulvic acid (FAK), a humic acid fertilizer, is widely used and can help plant resist abiotic stresses in farmland ecosystems. Through hydroponic experiments, this study investigated the physiological response characteristics of rye seedlings under FT and Cd compound stress and the potential protective effect of FAK on the rye seedlings. The results demonstrated that FT and Cd compound stress decreased the net photosynthetic rate (Pn) and transpiration rate (Tr) of rye seedlings, and FAK cannot relieve this decrease effectively. However, FAK enhanced the tolerance of rye seedlings to adverse stress, leading to significant increases in peroxidase (POD), superoxide dismutase (SOD), soluble protein (SP), and soluble sugar (SS), and a reduction in malondialdehyde (MDA) content. Therefore, it demonstrated that FAK has a protective effect on rye seedlings in FT and Cd compound stress, reducing the physiological damage to the seedlings. This study provides a theoretical basis for plants in northern high-latitude regions to avoid ecological disasters. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Development of an energy spread analyzer for secondary ion mass spectrometry ion source.

Author

Zhou, Y., Zhai, Y. J., Jin, Q. Y., Liu, Y. G., Li, L. B., Zhang, P., Zhang, S., Zhao, H. W., and Sun, L. T.

Subjects
ION beams, ION bombardment, ION sources, ENERGY development, SECONDARY ion mass spectrometry, MASS spectrometry, ION energy, FOCUSED ion beams, GAUSSIAN beams
Abstract

The energy spread (ΔE) of an ion source is an important parameter in the production of a finely focused primary ion beam applied in secondary ion mass spectrometry (SIMS). A variable-focusing retarding field energy analyzer (RFEA) has been developed and tested with an Ar+ beam and an oxygen ion beam extracted from a 2.45 GHz microwave ion source, which is developed as a candidate ion source for SIMS applications. The simulation results show that the relative resolution ΔE/E of the designed RFEA reaches 7 × 10−5. The experimental results indicate that a focusing electrode can improve the ΔE measurement results, which is consistent with the simulation results. The ion energy distributions of the Ar+ beam and oxygen ion beam are of Gaussian distribution with the value of ΔE of 3.3 and 2.9 eV, respectively. These results indicate that the designed RFEA is reliable for measuring the ion beam energy spread. The developed RFEA is also used to study the plasma behavior in different settings, which reveals that plasma stability is critical to making a low energy spread ion beam. This paper will present the simulation, design, and test of the variable-focusing RFEA. Preliminary ion beam quality studies with this instrument will also be discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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25. High Performance 18 GHz ECR Ion Sources Development

Author

Qian, C, primary, Sun, L T, additional, Lu, W, additional, Jia, Z H, additional, Yang, T J, additional, Zhu, L, additional, Zheng, S J, additional, Wang, X D, additional, Fang, X, additional, Li, L B, additional, Guo, J W, additional, Ma, J D, additional, Wang, H, additional, Feng, Y C, additional, Zhang, X Z, additional, and Zhao, H W, additional

Published
2022
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28. Direct Measurement of the Astrophysical F19(p,αγ)O16 Reaction in the Deepest Operational Underground Laboratory

Author

Zhang, L. Y., primary, Su, J., additional, He, J. J., additional, Wiescher, M., additional, deBoer, R. J., additional, Kahl, D., additional, Chen, Y. J., additional, Li, X. Y., additional, Wang, J. G., additional, Zhang, L., additional, Cao, F. Q., additional, Zhang, H., additional, Zhang, Z. C., additional, Jiao, T. Y., additional, Sheng, Y. D., additional, Wang, L. H., additional, Song, L. Y., additional, Jiang, X. Z., additional, Li, Z. M., additional, Li, E. T., additional, Wang, S., additional, Lian, G., additional, Li, Z. H., additional, Tang, X. D., additional, Zhao, H. W., additional, Sun, L. T., additional, Wu, Q., additional, Li, J. Q., additional, Cui, B. Q., additional, Chen, L. H., additional, Ma, R. G., additional, Guo, B., additional, Xu, S. W., additional, Li, J. Y., additional, Qi, N. C., additional, Sun, W. L., additional, Guo, X. Y., additional, Zhang, P., additional, Chen, Y. H., additional, Zhou, Y., additional, Zhou, J. F., additional, He, J. R., additional, Shang, C. S., additional, Li, M. C., additional, Zhou, X. H., additional, Zhang, Y. H., additional, Zhang, F. S., additional, Hu, Z. G., additional, Xu, H. S., additional, Chen, J. P., additional, and Liu, W. P., additional

Published
2021
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34. Production of metallic ion beams by electron cyclotron resonance ion sources equipped with inductive heating ovens at the Institute of Modern Physics

Author

Lu, W., primary, Qian, C., additional, Zhang, W. H., additional, Ma, H. Y., additional, Ma, J. D., additional, Feng, Y. C., additional, Li, L. B., additional, Li, L. X., additional, Guo, J. W., additional, Huang, W., additional, Zhang, X. Z., additional, Sun, L. T., additional, and Zhao, H. W., additional

Published
2021
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35. Demonstration of electron cooling using a pulsed beam from an electrostatic electron cooler

Author

Bruker, M. W., primary, Benson, S., additional, Hutton, A., additional, Jordan, K., additional, Powers, T., additional, Rimmer, R., additional, Satogata, T., additional, Sy, A., additional, Wang, H., additional, Wang, S., additional, Zhang, H., additional, Zhang, Y., additional, Ma, F., additional, Li, J., additional, Ma, X. M., additional, Mao, L. J., additional, Sha, X. P., additional, Tang, M. T., additional, Yang, J. C., additional, Yang, X. D., additional, Zhao, H., additional, and Zhao, H. W., additional

Published
2021
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37. Effects of magnetic configuration on hot electrons in a minimum-B ECR plasma

Author

Li, J B, primary, Li, L X, additional, Bhaskar, B S, additional, Toivanen, V, additional, Tarvainen, O, additional, Hitz, D, additional, Li, L B, additional, Lu, W, additional, Koivisto, H, additional, Thuillier, T, additional, Guo, J W, additional, Zhang, X Z, additional, Zhao, H Y, additional, Sun, L T, additional, and Zhao, H W, additional

Published
2020
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41. Highly charged ECR ion source development at IMP

Author

Sun, L, primary, Zhao, H W, additional, Lu, W, additional, Guo, J W, additional, Li, L X, additional, Shen, Z, additional, Li, L B, additional, Huang, W, additional, Zhang, X Z, additional, Ma, H Y, additional, Yang, Y, additional, Li, J Q, additional, Cao, Y, additional, Zhang, W H, additional, Fang, X, additional, Ma, Y M, additional, Feng, Y C, additional, Wu, B M, additional, Wu, W, additional, and Ma, L Z, additional

Published
2020
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43. Atomic physics research at HIAF and future perspective

Author

Ma, X, primary, Wen, W Q, additional, Zhan, S F, additional, Huang, Z K, additional, Wang, H B, additional, Yang, J, additional, Zhu, X L, additional, Yu, D Y, additional, Cheng, R, additional, Mao, L J, additional, Yang, J C, additional, Sheng, L N, additional, Zhou, X H, additional, Xu, H S, additional, Yuan, Y J, additional, Xia, J W, additional, Zhao, H W, additional, Xiao, G Q, additional, and Zhan, W L, additional

Published
2020
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46. Present status of HIRFL complex in Lanzhou

Author

Yuan, Y J, primary, Gao, D Q, additional, Ma, L Z, additional, Mao, L J, additional, Mao, R S, additional, Meng, J, additional, Su, Y W, additional, Sun, L T, additional, Wang, Y Y, additional, Wu, J X, additional, Xu, Z, additional, Yang, J C, additional, Yang, W Q, additional, Yao, Q G, additional, Yin, X J, additional, Zhang, B, additional, Zhang, W, additional, Zhou, Z Z, additional, Zhao, H W, additional, Xiao, G Q, additional, and Xia, J W, additional

Published
2020
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47. Commissioning progress of LEAF at IMP

Author

Yang, Y, primary, Zhai, Y H, additional, Jiang, P Y, additional, Sun, L T, additional, Lu, L, additional, Jia, H, additional, Dou, W P, additional, Fang, X, additional, Jing, L, additional, Wei, Y, additional, Ma, W, additional, Sun, L P, additional, Lu, W, additional, Guo, Y H, additional, Liu, X J, additional, and Zhao, H W, additional

Published
2020
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