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| WoS | SCOPUS | Document Type | Document Title | Abstract | Authors | Affiliation | ResearcherID (WoS) | AuthorsID (SCOPUS) | Author Email(s) | Journal Name | JCR Abbreviation | ISSN | eISSN | Volume | Issue | WoS Edition | WoS Category | JCR Year | IF | JCR (%) | FWCI | FWCI Update Date | WoS Citation | SCOPUS Citation | Keywords (WoS) | KeywordsPlus (WoS) | Keywords (SCOPUS) | KeywordsPlus (SCOPUS) | Language | Publication Stage | Publication Year | Publication Date | DOI | JCR Link | DOI Link | WOS Link | SCOPUS Link |
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| ○ | ○ | Article | Search for top squarks in final states with two top quarks and several light-flavor jets in proton-proton collisions at √s=13 TeV | Many new physics models, including versions of supersymmetry characterized by R-parity violation (RPV), compressed mass spectra, long decay chains, or additional hidden sectors, predict the production of events with top quarks, low missing transverse momentum, and many additional quarks or gluons. The results of a search for new physics in events with two top quarks and additional jets are reported. The search is performed using events with at least seven jets and exactly one electron or muon. No requirement on missing transverse momentum is imposed. The study is based on a sample of proton-proton collisions at root s = 13TeV corresponding to 137 fb(-1) of integrated luminosity collected with the CMS detector at the LHC in 2016-2018. The data are used to determine best fit values and upper limits on the cross section for pair production of top squarks in scenarios of RPV and stealth supersymmetry. Top squark masses up to 670 (870) GeV are excluded at 95% confidence level for the RPV (stealth) scenario, and the maximum observed local signal significance is 2.8 standard deviations for the RPV scenario with top squark mass of 400 GeV. | Sirunyan, A. M.; Tumasyan, A.; Adam, W.; Andrejkovic, J. W.; Bergauer, T.; Chatterjee, S.; Dragicevic, M.; Del Valle, A. Escalante; Fruhwirth, R.; Jeitler, M.; Krammer, N.; Lechner, L.; Liko, D.; Mikulec, I; Pitters, F. M.; Schieck, J.; Schofbeck, R.; Spanring, M.; Templ, S.; Waltenberger, W.; Wulz, C-E; Chekhovsky, V; Litomin, A.; Makarenko, V; Darwish, M. R.; De Wolf, E. A.; Janssen, X.; Kello, T.; Lelek, A.; Sfar, H. Rejeb; Van Mechelen, P.; Van Putte, S.; Van Remortel, N.; Blekman, F.; Bols, E. S.; D'Hondt, J.; De Clercq, J.; Delcourt, M.; Lowette, S.; Moortgat, S.; Morton, A.; Muller, D.; Sahasransu, A. R.; Tavernier, S.; Van Doninck, W.; Van Mulders, P.; Beghin, D.; Bilin, B.; Clerbaux, B.; De Lentdecker, G.; Favart, L.; Grebenyuk, A.; Kalsi, A. K.; Lee, K.; Mahdavikhorrami, M.; Makarenko, I; Moureaux, L.; Petre, L.; Popov, A.; Postiau, N.; Starling, E.; Thomas, L.; Vanden Bemden, M.; Vander Velde, C.; Vanlaer, P.; Vannerom, D.; Wezenbeek, L.; Cornelis, T.; Dobur, D.; Gruchala, M.; Mestdach, G.; Niedziela, M.; Roskas, C.; Skovpen, K.; Tytgat, M.; Verbeke, W.; Vermassen, B.; Vit, M.; Bethani, A.; Bruno, G.; Bury, F.; Caputo, C.; David, P.; Delaere, C.; Donertas, I. S.; Giammanco, A.; Lemaitre, V; Mondal, K.; Prisciandaro, J.; Taliercio, A.; Teklishyn, M.; Vischia, P.; Wertz, S.; Wuyckens, S.; Alves, G. A.; Hensel, C.; Moraes, A.; Junior, W. L. Alda; Ferreira Filho, M. Barroso; Malbouisson, H. Brandao; Carvalho, W.; Chinellato, J.; Da Costa, E. M.; Da Silveira, G. G.; Damiao, D. De Jesus; De Souza, S. Fonseca; Figueiredo, D. Matos; Herrera, C. Mora; Amarilo, K. Mota; Mundim, L.; Nogima, H.; Teles, P. Rebello; Rosas, L. J. Sanchez; Santoro, A.; Do Amaral, S. M. Silva; Sznajder, A.; Thiel, M.; Da Silva De Araujo, F. Torres; Pereira, A. Vilela; Bernardes, C. A.; Calligaris, L.; Fernandez Perez Tomei, T. R.; Gregores, E. M.; Lemos, D. S.; Mercadante, P. G.; Novaes, S. F.; Padula, Sandra S.; Aleksandrov, A.; Antchev, G.; Atanasov, I; Hadjiiska, R.; Iaydjiev, P.; Misheva, M.; Rodozov, M.; Shopova, M.; Sultanov, G.; Dimitrov, A.; Ivanov, T.; Litov, L.; Pavlov, B.; Petkov, P.; Petrov, A.; Cheng, T.; Fang, W.; Guo, Q.; Javaid, T.; Mittal, M.; Wang, H.; Yuan, L.; Ahmad, M.; Bauer, G.; Dozen, C.; Hu, Z.; Martins, J.; Wang, Y.; Yi, K.; Chapon, E.; Chen, G. M.; Chen, H. S.; Chen, M.; Kapoor, A.; Leggat, D.; Liao, H.; Liu, Z-A; Sharma, R.; Spiezia, A.; Tao, J.; Thomas-Wilsker, J.; Wang, J.; Zhang, H.; Zhang, S.; Zhao, J.; Agapitos, A.; Ban, Y.; Chen, C.; Huang, Q.; Levin, A.; Li, Q.; Lu, M.; Lyu, X.; Mao, Y.; Qian, S. J.; Wang, D.; Wang, Q.; Xiao, J.; You, Z.; Gao, X.; Okawa, H.; Xiao, M.; Avila, C.; Cabrera, A.; Florez, C.; Fraga, J.; Sarkar, A.; Segura Delgado, M. A.; Jaramillo, J.; Mejia Guisao, J.; Ramirez, F.; Ruiz Alvarez, J. D.; Salazar Gonzalez, C. A.; Vanegas Arbelaez, N.; Giljanovic, D.; Godinovic, N.; Lelas, D.; Puljak, I; Antunovic, Z.; Kovac, M.; Sculac, T.; Brigljevic, V; Ferencek, D.; Majumder, D.; Roguljic, M.; Starodumov, A.; Susa, T.; Attikis, A.; Erodotou, E.; Ioannou, A.; Kole, G.; Kolosova, M.; Konstantinou, S.; Mousa, J.; Nicolaou, C.; Ptochos, F.; Razis, P. A.; Rykaczewski, H.; Saka, H.; Finger, M.; Finger, M., Jr.; Kveton, A.; Ayala, E.; Carrera Jarrin, E.; Abu Zeid, S.; Khalil, S.; Salama, E.; Lotfy, A.; Mohammed, Y.; Bhowmik, S.; De Oliveira, A. Carvalho Antunes; Dewanjee, R. K.; Ehataht, K.; Kadastik, M.; Pata, J.; Raidal, M.; Veelken, C.; Eerola, P.; Forthomme, L.; Kirschenmann, H.; Osterberg, K.; Voutilainen, M.; Brucken, E.; Garcia, F.; Havukainen, J.; Karimaki, V; Kim, M. S.; Kinnunen, R.; Lampen, T.; Lassila-Perini, K.; Lehti, S.; Linden, T.; Siikonen, H.; Tuominen, E.; Tuominiemi, J.; Luukka, P.; Petrow, H.; Tuuva, T.; Amendola, C.; Besancon, M.; Couderc, F.; Dejardin, M.; Denegri, D.; Faure, J. L.; Ferri, F.; Ganjour, S.; Givernaud, A.; Gras, P.; de Monchenault, G. Hamel; Jarry, P.; Lenzi, B.; Locci, E.; Malcles, J.; Rander, J.; Rosowsky, A.; Sahin, M. O.; Savoy-Navarro, A.; Titov, M.; Yu, G. B.; Ahuja, S.; Beaudette, F.; Bonanomi, M.; Perraguin, A. Buchot; Busson, P.; Charlot, C.; Davignon, O.; Diab, B.; Falmagne, G.; Ghosh, S.; de Cassagnac, R. Granier; Hakimi, A.; Kucher, I; Lobanov, A.; Nguyen, M.; Ochando, C.; Paganini, P.; Rembser, J.; Salerno, R.; Sauvan, J. B.; Sirois, Y.; Zabi, A.; Zghiche, A.; Agram, J-L; Andrea, J.; Apparu, D.; Bloch, D.; Bourgatte, G.; Brom, J-M; Chabert, E. C.; Collard, C.; Darej, D.; Fontaine, J-C; Goerlach, U.; Grimault, C.; Le Bihan, A-C; Van Hove, P.; Asilar, E.; Beauceron, S.; Bernet, C.; Boudoul, G.; Camen, C.; Carle, A.; Chanon, N.; Contardo, D.; Depasse, P.; El Mamouni, H.; Fay, J.; Gascon, S.; Gouzevitch, M.; Ille, B.; Jain, Sa; Laktineh, I. B.; Lattaud, H.; Lesauvage, A.; Lethuillier, M.; Mirabito, L.; Shchablo, K.; Torterotot, L.; Touquet, G.; Vander Donckt, M.; Viret, S.; Adamov, G.; Tsamalaidze, Z.; Feld, L.; Klein, K.; Lipinski, M.; Meuser, D.; Pauls, A.; Rauch, M. P.; Schulz, J.; Teroerde, M.; Eliseev, D.; Erdmann, M.; Fackeldey, P.; Fischer, B.; Ghosh, S.; Hebbeker, T.; Hoepfner, K.; Keller, H.; Mastrolorenzo, L.; Merschmeyer, M.; Meyer, A.; Mocellin, G.; Mondal, S.; Mukherjee, S.; Noll, D.; Novak, A.; Pook, T.; Pozdnyakov, A.; Rath, Y.; Reithler, H.; Roemer, J.; Schmidt, A.; Schuler, S. C.; Sharma, A.; Wiedenbeck, S.; Zaleski, S.; Dziwok, C.; Flugge, G.; Ahmad, W. Haj; Hlushchenko, O.; Kress, T.; Nowack, A.; Pistone, C.; Pooth, O.; Roy, D.; Sert, H.; Stahl, A.; Ziemons, T.; Petersen, H. Aarup; Martin, M. Aldaya; Asmuss, P.; Babounikau, I; Baxter, S.; Behnke, O.; Martinez, A. Bermudez; Bin Anuar, A. A.; Borras, K.; Botta, V; Brunner, D.; Campbell, A.; Cardini, A.; Connor, P.; Rodriguez, S. Consuegra; Danilov, V; Defranchis, M. M.; Didukh, L.; Damiani, D. Dominguez; Eckerlin, G.; Eckstein, D.; Banos, L. I. Estevez; Gallo, E.; Geiser, A.; Giraldi, A.; Grohsjean, A.; Guthoff, M.; Harb, A.; Jafari, A.; Jomhari, N. Z.; Jung, H.; Kasem, A.; Kasemann, M.; Kaveh, H.; Kleinwort, C.; Knolle, J.; Kruecker, D.; Lange, W.; Lenz, T.; Lidrych, J.; Lipka, K.; Lohmann, W.; Madlener, T.; Mankel, R.; Melzer-Pellmann, I-A; Metwally, J.; Meyer, A. B.; Meyer, M.; Mnich, J.; Mussgiller, A.; Myronenko, V; Otarid, Y.; Adan, D. Perez; Pflitsch, S. K.; Pitzl, D.; Raspereza, A.; Saggio, A.; Saibel, A.; Savitskyi, M.; Scheurer, V; Schwanenberger, C.; Singh, A.; Ricardo, R. E. Sosa; Tonon, N.; Turkot, O.; Vagnerini, A.; Van de Klundert, M.; Walsh, R.; Walter, D.; Wen, Y.; Wichmann, K.; Wissing, C.; Wuchterl, S.; Zenaiev, O.; Zlebcik, R.; Aggleton, R.; Bein, S.; Benato, L.; Benecke, A.; De Leo, K.; Dreyer, T.; Eich, M.; Feindt, F.; Froehlich, A.; Garbers, C.; Garutti, E.; Gunnellini, P.; Haller, J.; Hinzmann, A.; Karavdina, A.; Kasieczka, G.; Klanner, R.; Kogler, R.; Kutzner, V; Lange, J.; Lange, T.; Malara, A.; Nigamova, A.; Rodriguez, K. J. Pena; Rieger, O.; Schleper, P.; Schroeder, M.; Schwandt, J.; Schwarz, D.; Sonneveld, J.; Stadie, H.; Steinbrueck, G.; Tews, A.; Vormwald, B.; Zoi, I; Bechtel, J.; Berger, T.; Butz, E.; Caspart, R.; Chwalek, T.; De Boer, W.; Dierlamm, A.; Droll, A.; El Morabit, K.; Faltermann, N.; Floeh, K.; Giffels, M.; Gosewisch, J. O.; Gottmann, A.; Hartmann, F.; Heidecker, C.; Husemann, U.; Katkov, I; Keicher, P.; Koppenhoefer, R.; Maier, S.; Metzler, M.; Mitra, S.; Mueller, Th; Musich, M.; Neukum, M.; Quast, G.; Rabbertz, K.; Rauser, J.; Savoiu, D.; Schaefer, D.; Schnepf, M.; Seith, D.; Shvetsov, I; Simonis, H. J.; Ulrich, R.; Van der Linden, J.; Von Cube, R. F.; Wassmer, M.; Weber, M.; Wieland, S.; Wolf, R.; Wozniewski, S.; Wunsch, S.; Anagnostou, G.; Asenov, P.; Daskalakis, G.; Geralis, T.; Kyriakis, A.; Loukas, D.; Stakia, A.; Diamantopoulou, M.; Karasavvas, D.; Karathanasis, G.; Kontaxakis, P.; Koraka, C. K.; Manousakis-Katsikakis, A.; Panagiotou, A.; Papavergou, I; Saoulidou, N.; Theofilatos, K.; Tziaferi, E.; Vellidis, K.; Vourliotis, E.; Bakas, G.; Kousouris, K.; Papakrivopoulos, I; Tsipolitis, G.; Zacharopoulou, A.; Evangelou, I; Foudas, C.; Gianneios, P.; Katsoulis, P.; Kokkas, P.; Manthos, N.; Papadopoulos, I; Strologas, J.; Csanad, M.; Gadallah, M. M. A.; Lokos, S.; Major, P.; Mandal, K.; Mehta, A.; Pasztor, G.; Radl, A. J.; Suranyi, O.; Veres, G., I; Bartok, M.; Bencze, G.; Hajdu, C.; Horvath, D.; Sikler, F.; Veszpremi, V.; Vesztergombi, G.; Czellar, S.; Karancsi, J.; Molnar, J.; Szillasi, Z.; Teyssier, D.; Raics, P.; Trocsanyi, Z. L.; Ujvari, B.; Csorgo, T.; Nemes, F.; Novak, T.; Choudhury, S.; Komaragiri, J. R.; Kumar, D.; Panwar, L.; Tiwari, P. C.; Bahinipati, S.; Dash, D.; Kar, C.; Mal, P.; Mishra, T.; Bindhu, V. K. Muraleedharan Nair; Nayak, A.; Saha, P.; Sur, N.; Swain, S. K.; Bansal, S.; Beri, S. B.; Bhatnagar, V; Chaudhary, G.; Chauhan, S.; Dhingra, N.; Gupta, R.; Kaur, A.; Kaur, S.; Kumari, P.; Meena, M.; Sandeep, K.; Singh, J. B.; Virdi, A. K.; Ahmed, A.; Bhardwaj, A.; Choudhary, B. C.; Garg, R. B.; Gola, M.; Keshri, S.; Kumar, A.; Naimuddin, M.; Priyanka, P.; Ranjan, K.; Shah, A.; Bharti, M.; Bhattacharya, R.; Bhattacharya, S.; Bhowmik, D.; Dutta, S.; Gomber, B.; Maity, M.; Nandan, S.; Palit, P.; Rout, P. K.; Saha, G.; Sahu, B.; Sarkar, S.; Sharan, M.; Singh, B.; Thakur, S.; Behera, P. K.; Behera, S. C.; Kalbhor, P.; Muhammad, A.; Pradhan, R.; Pujahari, P. R.; Sharma, A.; Sikdar, A. K.; Dutta, D.; Jha, V; Kumar, V; Mishra, D. K.; Naskar, K.; Netrakanti, P. K.; Pant, L. M.; Shukla, P.; Aziz, T.; Dugad, S.; Mohanty, G. B.; Sarkar, U.; Banerjee, S.; Bhattacharya, S.; Chudasama, R.; Guchait, M.; Karmakar, S.; Kumar, S.; Majumder, G.; Mazumdar, K.; Mukherjee, S.; Roy, D.; Dube, S.; Kansal, B.; Pandey, S.; Rane, A.; Rastogi, A.; Sharma, S.; Bakhshiansohi, H.; Zeinali, M.; Chenarani, S.; Etesami, S. M.; Khakzad, M.; Najafabadi, M. Mohammadi; Felcini, M.; Grunewald, M.; Abbrescia, M.; Aly, R.; Aruta, C.; Colaleo, A.; Creanza, D.; De Filippis, N.; De Palma, M.; Di Florio, A.; Di Pilato, A.; Elmetenawee, W.; Fiore, L.; Gelmi, A.; Gul, M.; Iaselli, G.; Ince, M.; Lezki, S.; Maggi, G.; Maggi, M.; Margjeka, I; Mastrapasqua, V; Merlin, J. A.; My, S.; Nuzzo, S.; Pompili, A.; Pugliese, G.; Ranieri, A.; Selvaggi, G.; Silvestris, L.; Simone, F. M.; Venditti, R.; Verwilligen, P.; Abbiendi, G.; Battilana, C.; Bonacorsi, D.; Borgonovi, L.; Braibant-Giacomelli, S.; Brigliadori, L.; Campanini, R.; Capiluppi, P.; Castro, A.; Cavallo, F. R.; Ciocca, C.; Cuffiani, M.; Dallavalle, G. M.; Diotalevi, T.; Fabbri, F.; Fanfani, A.; Fontanesi, E.; Giacomelli, P.; Giommi, L.; Grandi, C.; Guiducci, L.; Iemmi, F.; Lo Meo, S.; Marcellini, S.; Masetti, G.; Navarria, F. L.; Perrotta, A.; Primavera, F.; Rossi, A. M.; Rovelli, T.; Siroli, G. P.; Tosi, N.; Albergo, S.; Costa, S.; Di Mattia, A.; Potenza, R.; Tricomi, A.; Tuve, C.; Barbagli, G.; Cassese, A.; Ceccarelli, R.; Ciulli, V; Civinini, C.; D'Alessandro, R.; Fiori, F.; Focardi, E.; Latino, G.; Lenzi, P.; Lizzo, M.; Meschini, M.; Paoletti, S.; Seidita, R.; Sguazzoni, G.; Viliani, L.; Benussi, L.; Bianco, S.; Piccolo, D.; Bozzo, M.; Ferro, F.; Mulargia, R.; Robutti, E.; Tosi, S.; Benaglia, A.; Brivio, F.; Cetorelli, F.; Ciriolo, V; De Guio, F.; Dinardo, M. E.; Dini, P.; Gennai, S.; Ghezzi, A.; Govoni, P.; Guzzi, L.; Malberti, M.; Malvezzi, S.; Massironi, A.; Menasce, D.; Monti, F.; Moroni, L.; Paganoni, M.; Pedrini, D.; Ragazzi, S.; de Fatis, T. Tabarelli; Valsecchi, D.; Zuolo, D.; Buontempo, S.; Carnevali, F.; Cavallo, N.; De Iorio, A.; Fabozzi, F.; Iorio, A. O. M.; Lista, L.; Meola, S.; Paolucci, P.; Rossi, B.; Sciacca, C.; Azzi, P.; Bacchetta, N.; Bisello, D.; Bortignon, P.; Bragagnolo, A.; Carlin, R.; Checchia, P.; Manzano, P. De Castro; Dorigo, T.; Gasparini, F.; Gasparini, U.; Hoh, S. Y.; Layer, L.; Margoni, M.; Meneguzzo, A. T.; Presilla, M.; Ronchese, P.; Rossin, R.; Simonetto, F.; Strong, G.; Tosi, M.; Yarar, H.; Zanetti, M.; Zotto, P.; Zucchetta, A.; Zumerle, G.; Aime, C.; Braghieri, A.; Calzaferri, S.; Fiorina, D.; Montagna, P.; Ratti, S. P.; Re, V; Ressegotti, M.; Riccardi, C.; Salvini, P.; Vai, I; Vitulo, P.; Bilei, G. M.; Ciangottini, D.; Fano, L.; Lariccia, P.; Mantovani, G.; Mariani, V; Menichelli, M.; Moscatelli, F.; Piccinelli, A.; Rossi, A.; Santocchia, A.; Spiga, D.; Tedeschi, T.; Azzurri, P.; Bagliesi, G.; Bertacchi, V; Bianchini, L.; Boccali, T.; Bossini, E.; Castaldi, R.; Ciocci, M. A.; Dell'Orso, R.; Di Domenico, M. R.; Donato, S.; Giassi, A.; Grippo, M. T.; Ligabue, F.; Manca, E.; Mandorli, G.; Messineo, A.; Palla, F.; Ramirez-Sanchez, G.; Rizzi, A.; Rolandi, G.; Chowdhury, S. Roy; Scribano, A.; Shafiei, N.; Spagnolo, P.; Tenchini, R.; Tonelli, G.; Turini, N.; Venturi, A.; Verdini, P. G.; Cavallari, F.; Cipriani, M.; Del Re, D.; Di Marco, E.; Diemoz, M.; Longo, E.; Meridiani, P.; Organtini, G.; Pandolfi, F.; Paramatti, R.; Quaranta, C.; Rahatlou, S.; Rovelli, C.; Santanastasio, F.; Soffi, L.; Tramontano, R.; Amapane, N.; Arcidiacono, R.; Argiro, S.; Arneodo, M.; Bartosik, N.; Bellan, R.; Bellora, A.; Antequera, J. Berenguer; Biino, C.; Cappati, A.; Cartiglia, N.; Cometti, S.; Costa, M.; Covarelli, R.; Demaria, N.; Kiani, B.; Legger, F.; Mariotti, C.; Maselli, S.; Migliore, E.; Monaco, V; Monteil, E.; Monteno, M.; Obertino, M. M.; Ortona, G.; Pacher, L.; Pastrone, N.; Pelliccioni, M.; Angioni, G. L. Pinna; Ruspa, M.; Salvatico, R.; Shchelina, K.; Siviero, F.; Sola, V; Solano, A.; Soldi, D.; Staiano, A.; Tornago, M.; Trocino, D.; Belforte, S.; Candelise, V; Casarsa, M.; Cossutti, F.; Da Rold, A.; Della Ricca, G.; Vazzoler, F.; Dogra, S.; Huh, C.; Kim, B.; Kim, D. H.; Kim, G. N.; Lee, J.; Lee, S. W.; Moon, C. S.; Oh, Y. D.; Pak, S., I; Radburn-Smith, B. C.; Sekmen, S.; Yang, Y. C.; Kim, H.; Moon, D. H.; Kim, T. J.; Park, J.; Cho, S.; Choi, S.; Go, Y.; Hong, B.; Lee, K.; Lee, K. S.; Lim, J.; Park, J.; Park, S. K.; Yoo, J.; Goh, J.; Gurtu, A.; Kim, H. S.; Kim, Y.; Almond, J.; Bhyun, J. H.; Choi, J.; Jeon, S.; Kim, J.; Kim, J. S.; Ko, S.; Kwon, H.; Lee, H.; Lee, S.; Oh, B. H.; Oh, M.; Oh, S. B.; Seo, H.; Yang, U. K.; Yoon, I; Jeon, D.; Kim, J. H.; Ko, B.; Lee, J. S. H.; Park, I. C.; Roh, Y.; Song, D.; Watson, I. J.; Ha, S.; Yoo, H. D.; Choi, Y.; Jeong, Y.; Lee, H.; Lee, Y.; Yu, I; Beyrouthy, T.; Maghrbi, Y.; Veckalns, V.; Ambrozas, M.; Juodagalvis, A.; Rinkevicius, A.; Tamulaitis, G.; Vaitkevicius, A.; Abdullah, W. A. T. Wan; Yusli, M. N.; Zolkapli, Z.; Benitez, J. F.; Castaneda Hernandez, A.; Murillo Quijada, J. A.; Valencia Palomo, L.; Ayala, G.; Castilla-Valdez, H.; De La Cruz-Burelo, E.; Heredia-De La Cruz, I; Lopez-Fernandez, R.; Mondragon Herrera, C. A.; Perez Navarro, D. A.; Sanchez-Hernandez, A.; Carrillo Moreno, S.; Oropeza Barrera, C.; Ramirez-Garcia, M.; Vazquez Valencia, F.; Pedraza, I; Salazar Ibarguen, H. A.; Uribe Estrada, C.; Mijuskovic, J.; Raicevic, N.; Krofcheck, D.; Bheesette, S.; Butler, P. H.; Ahmad, A.; Asghar, M., I; Awais, A.; Awan, M. I. M.; Hoorani, H. R.; Khan, W. A.; Shah, M. A.; Shoaib, M.; Waqas, M.; Avati, V; Grzanka, L.; Malawski, M.; Bialkowska, H.; Bluj, M.; Boimska, B.; Frueboes, T.; Gorski, M.; Kazana, M.; Szleper, M.; Traczyk, P.; Zalewski, P.; Bunkowski, K.; Doroba, K.; Kalinowski, A.; Konecki, M.; Krolikowski, J.; Walczak, M.; Araujo, M.; Bargassa, P.; Bastos, D.; Boletti, A.; Faccioli, P.; Gallinaro, M.; Hollar, J.; Leonardo, N.; Niknejad, T.; Seixas, J.; Toldaiev, O.; Varela, J.; Afanasiev, S.; Budkouski, D.; Bunin, P.; Gavrilenko, M.; Golutvin, I; Gorbunov, I; Kamenev, A.; Karjavine, V; Lanev, A.; Malakhov, A.; Matveev, V; Palichik, V; Perelygin, V; Savina, M.; Seitova, D.; Shalaev, V; Shmatov, S.; Shulha, S.; Smirnov, V; Teryaev, O.; Voytishin, N.; Zarubin, A.; Zhizhin, I; Gavrilov, G.; Golovtcov, V; Ivanov, Y.; Kim, V; Kuznetsova, E.; Murzin, V; Oreshkin, V; Smirnov, I; Sosnov, D.; Sulimov, V; Uvarov, L.; Volkov, S.; Vorobyev, A.; Andreev, Yu; Dermenev, A.; Gninenko, S.; Golubev, N.; Karneyeu, A.; Kirsanov, M.; Krasnikov, N.; Pashenkov, A.; Pivovarov, G.; Tlisov, D.; Toropin, A.; Epshteyn, V; Gavrilov, V; Lychkovskaya, N.; Nikitenko, A.; Popov, V; Safronov, G.; Spiridonov, A.; Stepennov, A.; Toms, M.; Vlasov, E.; Zhokin, A.; Aushev, T.; Chistov, R.; Danilov, M.; Oskin, A.; Parygin, P.; Polikarpov, S.; Andreev, V; Azarkin, M.; Dremin, I; Kirakosyan, M.; Terkulov, A.; Belyaev, A.; Boos, E.; Dubinin, M.; Dudko, L.; Ershov, A.; Gribushin, A.; Klyukhin, V; Kodolova, O.; Lokhtin, I; Obraztsov, S.; Petrushanko, S.; Savrin, V; Snigirev, A.; Blinov, V; Dimova, T.; Kardapoltsev, L.; Ovtin, I; Skovpen, Y.; Azhgirey, I; Bayshev, I; Kachanov, V; Kalinin, A.; Konstantinov, D.; Petrov, V; Ryutin, R.; Sobol, A.; Troshin, S.; Tyurin, N.; Uzunian, A.; Volkov, A.; Babaev, A.; Okhotnikov, V; Sukhikh, L.; Borchsh, V; Ivanchenko, V; Tcherniaev, E.; Adzic, P.; Dordevic, M.; Milenovic, P.; Milosevic, J.; Milosevic, V; Aguilar-Benitez, M.; Alcaraz Maestre, J.; Alvarez Fernandez, A.; Bachiller, I; Barrio Luna, M.; Bedoya, Cristina F.; Carrillo Montoya, C. 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H.; Teague, D.; Trembath-Reichert, S.; Vetens, W. | Yerevan Phys Inst, Yerevan, Armenia; Inst Hochenergiephys, Vienna, Austria; Inst Nucl Problems, Minsk, BELARUS; Univ Antwerp, Antwerp, Belgium; Vrije Univ Brussel, Brussels, Belgium; Univ Libre Bruxelles, Brussels, Belgium; Univ Ghent, Ghent, Belgium; Catholic Univ Louvain, Louvain La Neuve, Belgium; Ctr Brasileiro Pesquisas Fis, Rio De Janeiro, Brazil; Univ Estado Rio de Janeiro, Rio De Janeiro, Brazil; Univ Estadual Paulista, Sao Paulo, Brazil; Univ Fed ABC, Sao Paulo, Brazil; Bulgarian Acad Sci, Inst Nucl Res & Nucl Energy, Sofia, Bulgaria; Univ Sofia, Sofia, Bulgaria; Beihang Univ, Beijing, Peoples R China; Tsinghua Univ, Dept Phys, Beijing, Peoples R China; Inst High Energy Phys, Beijing, Peoples R China; Peking Univ, State Key Lab Nucl Phys & Technol, Beijing, Peoples R China; Sun Yat Sen Univ, Guangzhou, Peoples R China; Fudan Univ, Inst Modern Phys, Shanghai, Peoples R China; Fudan Univ, Key Lab Nucl Phys & Ion Beam Applicat MOE, Shanghai, Peoples R China; 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Univ Pavia, Sez Pavia, Ist Nazl Fis Nucl, Pavia, Italy; Ecole Polytech Fed Lausanne, Lausanne, Switzerland; Stefan Meyer Inst Subatom Phys, Vienna, Austria; IN2P3 CNRS, Lab Annecy Vieux Phys Particules, Annecy Le Vieux, France; Gaziosmanpasa Univ, Tokat, Turkey; Sirnak Univ, Sirnak, Turkey; Near East Univ, Res Ctr Expt Hlth Sci, Nicosia, Turkey; Konya Tech Univ, Konya, Turkey; Istanbul Univ Cerraphasa, Fac Engn, Istanbul, Turkey; Mersin Univ, Mersin, Turkey; Piri Reis Univ, Istanbul, Turkey; Adiyaman Univ, Adiyaman, Turkey; Tarsus Univ, Tarsus, Turkey; Ozyegin Univ, Istanbul, Turkey; Izmir Inst Technol, Izmir, Turkey; Necmettin Erbakan Univ, Konya, Turkey; Bozok Univ Rektorlugu, Yozgat, Turkey; Marmara Univ, Istanbul, Turkey; Milli Savunma Univ, Istanbul, Turkey; Kafkas Univ, Kars, Turkey; Istanbul Bilgi Univ, Istanbul, Turkey; Hacettepe Univ, Ankara, Turkey; Univ Southampton, Sch Phys & Astron, Southampton, Hants, England; IPPP Durham Univ, Durham, England; Monash Univ, Fac Sci, Clayton, Vic, Australia; Bethel Univ, St Paul, MN USA; Karamanoglu Mehmetbey Univ, Karaman, Turkey; Bingol Univ, Bingol, Turkey; Sinop Univ, Sinop, Turkey; Mimar Sinan Univ, Istanbul, Turkey; Erciyes Univ, Kayseri, Turkey; Texas A&M Univ Qatar, Doha, Qatar | Gelmi, Amy/D-4456-2012; Heredia de la Cruz, Ivan/L-2610-2018; Kodolova, Olga/IQV-0056-2023; Iaydjiev, Plamen/AEB-8785-2022; Troshin, Sergey/AAR-8556-2020; Sacchi, Roberto/AGS-7202-2022; Garg, Rocky/AAV-9845-2021; Traczyk, Piotr/ABA-8929-2020; cartiglia, nicolo/ABF-1008-2021; Ferencek, Dinko/G-6411-2015; Roy, Ashim/HLV-9248-2023; KARA, Ozgun/MCY-5689-2025; de Souza Sandro, Fonseca/ABB-8505-2020; Gozalez-Lopez, Oscar/AAH-3533-2019; YU, SHIN-SHAN/JPW-8635-2023; Bourilkov, Dimitri/AAO-4908-2020; Wittich, Peter/HOH-5761-2023; Calvo Alamillo, Enrique/L-1203-2014; Gütay, Levent/C-5352-2009; Moraes, Arthur/F-6478-2010; Novak, Tibor/JGE-0651-2023; Titov, Maxim/JAC-6742-2023; Gulmez, Erhan/P-9518-2015; siviero, federico/LXA-5818-2024; Raicevic, Natasa/ABD-5889-2020; 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Nguyen, Thong/Y-5186-2019; Kim, Tae Jeong/P-7848-2015; Mercadante, Pedro/K-1918-2012; Elkafrawy, Tamer/HPF-5873-2023; Dubinin, Mikhail/I-3942-2016; Shopova, Mariana/HKW-0149-2023; Nandan, Saswati/JVY-9235-2024; Redondo, Ignacio/K-8639-2014; Kim, Soon Hee/GXF-6736-2022; Liu, Jianglai/P-2587-2015; Terkulov, Adel/M-8581-2015; Giammanco, Andrea/O-5017-2019; Aruta, Caterina/NRX-9970-2025; Gonzalez Caballero, Isidro/E-7350-2010; Paramatti, Riccardo/IXW-6363-2023; Salvini, Paola/G-1670-2018; Kirpichnikov, Dmitry/U-9605-2019; Ahmad, Ashfaq/ABJ-8366-2022; Habibullah, Redwan/AAK-9617-2020; Hoh, Siewyan/AAM-9562-2021; de Souza Lemos, Dener/X-1931-2018; Kumar, Dinesh/ITU-5674-2023; Organtini, Giovanni/D-3990-2009; Vilela Pereira, Antonio/L-4142-2016; Hlushchenko, Olena/AAC-8972-2022; Lutz, Benjamin/U-4283-2017; Sguazzoni, Giacomo/J-4620-2015; Di Mattia, Alessandro/HNQ-0365-2023; Meijers, Femke/IUM-7952-2023; Gokbulut, Gul/G-2141-2018; My, Salvatore/I-5160-2015; Mastrapasqua, Vincenzo/KZU-0967-2024; Gandrajula, Reddy/AFR-4403-2022; Fienga, Francesco/HKE-1204-2023; Missiroli, Marino/AAA-9072-2021; Su, Hang/Z-1713-2019; De Filippis, Nicola/AAD-6280-2019; Tumasyan, Armen/P-3390-2015; LI, QI/IUM-8577-2023; ABDULLAH, WAN/B-5439-2010; Golubev, Nikolay/L-4131-2017; Chistov, Ruslan/B-4893-2014; Paganoni, Marco/A-4235-2016; Purohit, Arnab/MSW-1519-2025; Ambrozas, Marijus/F-5551-2018; De Iorio, Agostino/HJH-7155-2023; Ruiz Jimeno, Alberto/E-4473-2011; Maier, Benedikt/AAN-1929-2021; KHAN, Masood/AAA-7384-2020; Borg, Jacqueline/AFS-8793-2022; Guler, Yalcin/AAG-7833-2019; Field, Robert/B-6850-2008; Sunar Cerci, Deniz/AHE-1706-2022; Mignerey, Alice/D-6623-2011; Gavrilov, Gennadii/GRO-6222-2022; Tcherniaev, Evgueni/G-3453-2016; Cipriani, Marco/MHU-3780-2025; Malvezzi, Sandra/B-8524-2009; Dallavalle, Gaetano Marco/AFW-4654-2022; Sen, Sercan/C-6473-2014; Choudhury, Seema/LEM-7962-2024; Raidal, Martti/F-4436-2012; Ligabue, Franco/F-3432-2014; Salvatico, Riccardo/JAO-1069-2023; chen, yue/JEF-2824-2023; Bouhali, Othmane/JXM-3572-2024; wei, li/JWP-9848-2024; Theofilatos, Konstantinos/AAL-9162-2021; Pérez-Calero Yzquierdo, Antonio/F-2235-2013; Bunkowski, Karol/KOD-1567-2024; Amapane, Nicola/HDN-9630-2022; Hegeman, Jeroen/HJA-1005-2022; Alshammari, Mohammed/GQH-6983-2022; Ceccarelli, Rudy/JTU-5218-2023; Rodrigo, Teresa/F-6183-2018; Flore, Carlo/HZJ-6377-2023; Kim, Mee/E-7234-2015; Teles, Patricia/ABF-9723-2021; Venditti, Rosamaria/I-1030-2014; Csorgo, Tamas/I-4183-2012; Sanchez, Federico/F-5809-2012; Veckalns, Viesturs/AAZ-3105-2020; Lista, Luca/M-2912-2019; Hebbeker, Thomas/L-4073-2013; Primavera, Federica/KUD-4067-2024; Delgado Peris, Antonio/AAA-5165-2019; SIMSEK, Ali Eren/AFO-3050-2022; Singha, Soumya/AAS-5837-2021; Ahuja, Sudha/I-4097-2014; Sanchez Rosas, Luis Junior/IXW-7054-2023; Aimè, Chiara/GXG-4131-2022; Katkov, Igor/E-2627-2012; Mejia Guisao, Jhovanny/ABG-3627-2021; Giommi, Luca/AGV-7154-2022; Battilana, Carlo/AAA-7345-2020; Biino, Cristina/AAF-1585-2020; ZHANG, JIANWEN/JMQ-9363-2023; Kim, Dongwon/KHV-7759-2024; ASILAR, Ece/KEI-3075-2024; Masciovecchio, Mario/IXD-8018-2023; ., MOHD./AAD-2818-2019; Goy Lopez, Silvia/K-9200-2017; tosi, mia/J-5777-2012; Arcidiacono, Roberta/ABF-3918-2020; Anampa, Kenyi/GPX-8479-2022; Cassese, Antonio/R-1713-2016; WANG, YING/JLM-9219-2023; Kim, Geuk-Nam/IAO-4628-2023; Kumar, Parveen/I-3259-2015; Voytishin, Nikolay/IYJ-7234-2023; Lee, Jason/B-9701-2014; Parygin, Pavel/C-8908-2016; Asawatangtrakuldee, Chayanit/GLS-1465-2022; Forthomme, Laurent/AFS-8908-2022; Dudko, Lev/D-7127-2012; Andreev, Vladimir/M-8665-2015; Brandt, Steven/AGV-6975-2022; Mazza, Giovanni/ABI-2143-2020; Amoroso, Simone/AAW-4334-2021; Palladino, Vito/AAA-5328-2020; yagil, avi/I-3278-2018; Krücker, Dirk/X-1844-2019; Kardapoltsev, Leonid/AAQ-4047-2021; Chen, Yang/KHD-8849-2024; Moscatelli, Francesco/N-6333-2014; Navarria, Francesco Luigi/ACP-7823-2022; Roy Chowdhury, Suvankar/IXN-7230-2023; staiano, amedeo/KVB-8364-2024; Chang, Philip/AAN-3350-2021; Marin, Jose/K-6412-2014; Kim, Jeehoon/K-3763-2012; Soares, Mara/GZM-6676-2022; Verdini, Piero/J-2839-2012; Bhatnagar, Vipin/Z-1079-2018; shi, chen/KEH-8339-2024; Felcini, Marta/S-2684-2019; Fallavollita, Francesco/AAL-8850-2020; Leonardo, Nuno/M-6940-2016; D'Hondt, Jorgen/ABD-7930-2020; Zalewski, Piotr/H-7335-2013; Jain, Shikha/ADG-6788-2022; Piperov, Stefan/Q-1980-2017; TUVE, Cristina/P-3933-2015; Skovpen, Kirill/HKM-3974-2023; Ovtin, Ivan/AAM-8892-2021; Bertacchi, Valerio/KFQ-6990-2024; Gonzalez, Barbara/ABG-7021-2020; Rout, Prasanna/N-8012-2019; Lau, Kok-Tee/AAX-5361-2020; MantillaSuarez, Cristina/LWK-8416-2024; Markowitz, Pete/AAC-3382-2020; Polikarpov, Sergey/C-8939-2016; Dewanjee, Ram Krishna/AFE-3468-2022; Ruhlmann-Kleider, Vanina/AGJ-4460-2022; Padhi, Saswat/LTF-2060-2024; Waltenberger, Wolfgang/H-9330-2018; Moon, Chang-Seong/J-3619-2014; Kaur, Amandeep/IYJ-2622-2023; buotempo, salvatore/B-5210-2012; Heller, Richard/I-6605-2012; Reis, Tomas/JHS-4868-2023; Boimska, Bożena/Z-6088-2019; Tinoco Mendes, Andre David/D-4314-2011; 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Ye, Zhihong/E-6651-2017; L, L/KCY-3050-2024; Selvaggi, Michele/CAJ-2129-2022; Mohammadi Najafabadi, Mohammad/GLR-0213-2022; Spiga, Daniele/ABB-8842-2021; Jayananda, Mudlappa/HKV-1619-2023; Duarte, Javier/AAA-5414-2020; Sonnadara, Upul/E-6359-2010; Skoro, Goran/F-3642-2010; LECOQ, Paul/S-7246-2019; Bagliesi, Giuseppe/C-2230-2013; Hill, Christopher/B-5371-2012; Mulders, Martijn/AGK-9612-2022; Lannon, Kevin/HGU-5755-2022; Palla, Fabrizio/F-4727-2012; Popov, Andrey/E-1052-2012; Petkov, Peicho/M-2080-2016; chen, junchen/KHW-4086-2024; Martin Perez, Cristina/MEP-9682-2025; Osherson, Marc/LWZ-8687-2024; Ozkorucuklu, Suat/AAE-7535-2020; Wang, Shaohui/HKO-6774-2023; Petrolini, Alessandro/H-3782-2011; Vischia, Pietro/AAB-7811-2021; Bonham, Brandon/JBJ-8605-2023; Zhu, Ren-Yuan/V-8966-2019; Di Nardo, Roberto/J-4993-2012; gomez, marina/I-7072-2012; Rossi, Biagio/F-4137-2018; Kim, Young-Il/ISS-7678-2023; Piedra, Jonatan/F-3247-2018; Schwarz, Dennis/GYA-4479-2022; Elkafrawy, Tamer/Q-8786-2016; Obertino, Maria/ABH-1662-2020; Goh, Junghwan/Q-3720-2016; Benussi, Luigi/O-9684-2014; Fernandez Menendez, Javier/B-6550-2014; Bainbridge, Robert/JRW-6150-2023; Hobson, Peter/C-8919-2016; Tuo, Shengquan/ABA-9032-2021; Zorbilmez, Caglar/ABH-1905-2020; Bermudez Martinez, Armando/HHN-4625-2022; Cavallari, Francesca/AAE-8571-2019; Obraztsov, Stepan/E-1895-2012; Nguyen, Thong/JHS-8911-2023; Kratochwil, Nicolaus/ACR-4384-2022; Mondal, Santu/GSE-1742-2022; Tuominen, Eija/A-5288-2017; Sola, Valentina/E-7726-2015; Ulrich, Ralf/Q-3882-2019; Ahmad, Muhammad/LBH-2342-2024; Bernardes, Cesar Augusto/D-2408-2015; tsamalaidze, zviadi/U-6949-2019; Kim, Hyung Joon/ABD-3143-2020; Okhotnikov, Vitalii/O-4293-2017; Ciulli, Vitaliano/ABC-5440-2020; Soffi, Livia/HSC-0774-2023; D'Alessandro, Raffaello/P-4138-2019; Geralis, Theodoros/I-6467-2016 | 16239550900; 35222495600; 56217303000; 57222730792; 56236454000; 55470759900; 58189557300; 56272545200; 8791909900; 16019870600; 57194835548; 24767624300; 35227509400; 15825660400; 57195059626; 55325317300; 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55951354400; 57201370087; 56681988200; 57147084600; 56401004600; 55868435500; 57210751238; 35308730700; 8984617000; 7006404363; 57210312265; 7003879901; 57210321748; 57215670509; 36639963700; 56501874000; 36123824900; 57217021019; 57215610762; 16403346300; 57193206437; 56648200300; 57216948352 | PHYSICAL REVIEW D | PHYS REV D | 2470-0010 | 2470-0029 | 104 | 3 | SCIE | ASTRONOMY & ASTROPHYSICS;PHYSICS, PARTICLES & FIELDS | 2021 | 5.407 | 22.4 | 1.63 | 2025-07-30 | 21 | 24 | ANNIHILATION; EVENT | English | 2021 | 2021-08-20 | 10.1103/physrevd.104.032006 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||||
| ○ | ○ | Article | Self-consistent light-front quark model analysis of B → Dlνl transition form factors | We investigate the transition form factors f(+)(q(2)) and f(-)(q(2)) [or f(0)(q(2))] for the exclusive semileptonic B -> Dl nu(l) (l = e, mu, tau) decays in the standard light-front quark model based on the light-front quantization. The common belief is that while f(+)(q(2)) can be obtained without involving any treacherous contributions such as the zero mode and the instantaneous contribution, f(-)(q(2)) receives those treacherous contributions since it involves at least two components of the current, e.g., (J(+), J(-)) or (J(+), J(perpendicular to)). Contrary to the common belief, we show in the Drell-Yan (q(+) = 0) frame that f(-)(q(2)) obtained from (J(+), J(perpendicular to)) gives identical result to f(-)(q(2)) obtained from (J(+), J(perpendicular to)) without involving such treacherous contributions in the standard light-front quark model. In our numerical calculations, we obtain the form factors and branching ratios for B -> Dl nu(l) (l = e, mu, tau) and compare with the experimental data as well as other theoretical model predictions. Our results for Br(B -> Dl nu(l)) show reasonable agreement with the experimental data except for the semitauonic B-0 -> D-tau nu(tau), decay. The ratio R(D) = Br(B -> D tau nu(tau))/Br(B -> Dl'nu(l')) (l' = e, mu) is also estimated and compared with the experimental data as well as other theoretical predictions. | Choi, Ho-Meoyng | Kyungpook Natl Univ, Teachers Coll, Dept Phys, Daegu 702701, South Korea | 7404339783 | PHYSICAL REVIEW D | PHYS REV D | 2470-0010 | 2470-0029 | 103 | 7 | SCIE | ASTRONOMY & ASTROPHYSICS;PHYSICS, PARTICLES & FIELDS | 2021 | 5.407 | 22.4 | 0.96 | 2025-07-30 | 15 | 16 | SEMILEPTONIC DECAYS; HEAVY MESONS; SUM-RULES | English | 2021 | 2021-04-22 | 10.1103/physrevd.103.073004 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||||||
| ○ | ○ | Article | Study of e⁺e⁻ → Υ(1S, 2S)η and e⁺e⁻ → Υ(1S)η′ at √s=10.866 GeV with the Belle detector | We report the first observation of the processes e(+)e(-) -> Upsilon(1S, 2S)eta at root s = 10.866 GeV, with significance exceeding 10 sigma for both processes. The measured Born cross sections are sigma(e(+)e(-) -> Upsilon(2S)eta) = 2.07 +/- 0.21 +/- 0.19 pb, and sigma(e(+)e(-) -> Upsilon(1S)eta) = 0.42 +/- 0.08 +/- 0.04 pb. We also set the upper limit on the cross section of the process e(+)e(-) -> Upsilon(1S)eta to be sigma(e(+)e(-) -> Upsilon(1S)eta') < 0.037 pb at 90% C.L. The results are obtained with the data sample collected with the Belle detector at the KEKB asymmetric-energy e(+)e(-) collider in the energy range from 10.63 to 11.02 GeV. | Kovalenko, E.; Garmash, A.; Krokovny, P.; Adachi, I; Aihara, H.; Asner, D. M.; Aulchenko, V; Aushev, T.; Ayad, R.; Babu, V; Bahinipati, S.; Behera, P.; Bennett, J.; Bessner, M.; Bilka, T.; Biswal, J.; Bobrov, A.; Bondar, A.; Bonvicini, G.; Bozek, A.; Bracko, M.; Browder, T. E.; Campajola, M.; Cao, L.; Cervenkov, D.; M-C Chang; Cheon, B. G.; Chilikin, K.; Cho, H. E.; Cho, K.; S-J Cho; S-K Choi; Choi, Y.; Choudhury, S.; Cinabro, D.; Cunliffe, S.; Das, S.; De Nardo, G.; Di Capua, F.; Dolezal, Z.; Dong, T., V; Eidelman, S.; Epifanov, D.; Ferber, T.; Frey, A.; Fulsom, B. G.; Garg, R.; Gaur, V; Gabyshev, N.; Giri, A.; Goldenzweig, P.; Greenwald, D.; Gudkova, K.; Hadjivasiliou, C.; Hara, T.; Hayasaka, K.; W-S Hou; C-L Hsu; Iijima, T.; Inami, K.; Ishikawa, A.; Itoh, R.; Iwasaki, M.; Jacobs, W. W.; Jin, Y.; Joo, K. K.; Karyan, G.; Kichimi, H.; Kiesling, C.; Kim, C. H.; Kim, D. Y.; K-H Kim; Kim, S. H.; Kim, Y-K; Kinoshita, K.; Kodys, P.; Konno, T.; Korobov, A.; Korpar, S.; Krizan, P.; Kroeger, R.; Kuhr, T.; Kumar, M.; Kumar, R.; Kumara, K.; Kuzmin, A.; Y-J Kwon; Lalwani, K.; Lange, J. S.; Lee, S. C.; Li, Y. B.; Li Gioi, L.; Libby, J.; Lieret, K.; Liventsev, D.; MacQueen, C.; Masuda, M.; Matsuda, T.; Matvienko, D.; Merola, M.; Metzner, F.; Miyabayashi, K.; Mizuk, R.; Mohanty, G. B.; Nakao, M.; Natochii, A.; Nayak, L.; Niiyama, M.; Nisar, N. K.; Nishida, S.; Ogawa, K.; Ogawa, S.; Ono, H.; Oskin, P.; Pakhlov, P.; Pakhlova, G.; Pardi, S.; Park, H.; Park, S-H; Patra, S.; Paul, S.; Pedlar, T. K.; Pestotnik, R.; Piilonen, L. E.; Podobnik, T.; Prencipe, E.; Prim, M. T.; Rabusov, A.; Rohrken, M.; Rostomyan, A.; Rout, N.; Russo, G.; Sahoo, D.; Sakai, Y.; Sandilya, S.; Sangal, A.; Sanuki, T.; Savinov, V; Schnell, G.; Schwanda, C.; Seino, Y.; Senyo, K.; Sevior, M. E.; Sharma, C.; Shiu, J-G; Shwartz, B.; Sokolov, A.; Solovieva, E.; Staric, M.; Stottler, Z. S.; Sumihama, M.; Sumiyoshi, T.; Sutcliffe, W.; Takizawa, M.; Tamponi, U.; Tanida, K.; Tenchini, F.; Trabelsi, K.; Uchida, M.; Uglov, T.; Unno, Y.; Uno, K.; Uno, S.; Urquijo, P.; Usov, Y.; Van Tonder, R.; Varner, G.; Vinokurova, A.; Waheed, E.; Wang, C. H.; Wang, M-Z; Wang, P.; Watanabe, M.; Werbycka, O.; Won, E.; Yan, W.; Yang, S. B.; Ye, H.; Yin, J. H.; Yusa, Y.; Zhang, Z. P.; Zhilich, V; Zhukova, V | Univ Basque Country UPV EHU, Dept Phys, Bilbao 48080, Spain; Univ Bonn, D-53115 Bonn, Germany; Brookhaven Natl Lab, Upton, NY 11973 USA; Budker Inst Nucl Phys SB RAS, Novosibirsk 630090, Russia; Charles Univ Prague, Fac Math & Phys, Prague 12116, Czech Republic; Chonnam Natl Univ, Gwangju 61186, South Korea; Univ Cincinnati, Cincinnati, OH 45221 USA; DESY, D-22607 Hamburg, Germany; Fu Jen Catholic Univ, Dept Phys, Taipei 24205, Taiwan; Fudan Univ, Key Lab Nucl Phys & Ion Beam Applicat MOE, Shanghai 200443, Peoples R China; Fudan Univ, Inst Modern Phys, Shanghai 200443, Peoples R China; Justus Liebig Univ Giessen, D-35392 Giessen, Germany; Gifu Univ, Gifu 5011193, Japan; Georg August Univ Gottingen, Phys Inst 2, D-37073 Gottingen, Germany; SOKENDAI Grad Univ Adv Studies, Hayama, Kanagawa 2400193, Japan; Gyeongsang Natl Univ, Jinju 52828, South Korea; Hanyang Univ, Dept Phys, Seoul 04763, South Korea; Hanyang Univ, Inst Nat Sci, Seoul 04763, South Korea; Univ Hawaii, Honolulu, HI 96822 USA; High Energy Accelerator Res Org KEK, Tsukuba, Ibaraki 3050801, Japan; High Energy Accelerator Res Org KEK, KEK Theory Ctr, J PARC Branch, Tsukuba, Ibaraki 3050801, Japan; Natl Res Univ Higher Sch Econ, Moscow 101000, Russia; Forschungszentrum Julich, D-52425 Julich, Germany; Basque Fdn Sci, Ikerbasque, Bilbao 48013, Spain; Indian Inst Sci Educ & Res Mohali, Sas Nagar 140306, India; Indian Inst Technol, Bhubaneswar 751007, Satya Nagar, India; Indian Inst Technol, Hyderabad 502285, Telangana, India; Indian Inst Technol, Chennai 600036, Tamil Nadu, India; Indiana Univ, Bloomington, IN 47408 USA; Chinese Acad Sci, Inst High Energy Phys, Beijing 100049, Peoples R China; Inst High Energy Phys, A-1050 Vienna, Austria; Inst High Energy Phys, Protvino 142281, Russia; Ist Nazl Fis Nucl, Sez Napoli, I-80126 Naples, Italy; Ist Nazl Fis Nucl, Sez Torino, I-10125 Turin, Italy; Japan Atom Energy Agcy, Adv Sci Res Ctr, Naka, Ibaraki 3191195, Japan; J Stefan Inst, Ljubljana 1000, Slovenia; Karlsruher Inst Technol, Inst Expt Teilchenphys, D-76131 Karlsruhe, Germany; Kitasato Univ, Sagamihara, Kanagawa 2520373, Japan; Korea Inst Sci & Technol Informat, Daejeon 34141, South Korea; Korea Univ, Seoul 02841, South Korea; Kyoto Sangyo Univ, Kyoto 6038555, Japan; Kyungpook Natl Univ, Daegu 41566, South Korea; Univ Paris Saclay, IJCLab, CNRS IN2P3, F-91405 Orsay, France; Russian Acad Sci, PN Lebedev Phys Inst, Moscow 119991, Russia; Univ Ljubljana, Fac Math & Phys, Ljubljana 1000, Slovenia; Ludwig Maximilians Univ Munchen, D-80539 Munich, Germany; Luther Coll, Decorah, IA 52101 USA; Malaviya Natl Inst Technol Jaipur, Jaipur 302017, Rajasthan, India; Univ Maribor, Fac Chem & Chem Engn, Maribor 2000, Slovenia; Max Planck Inst Phys & Astrophys, D-80805 Munich, Germany; Univ Melbourne, Sch Phys, Melbourne, Vic 3010, Australia; Univ Mississippi, University, MS 38677 USA; Univ Miyazaki, Miyazaki 8892192, Japan; Moscow Phys Engn Inst, Moscow 115409, Russia; Nagoya Univ, Grad Sch Sci, Nagoya, Aichi 4648602, Japan; Nagoya Univ, Kobayashi Maskawa Inst, Nagoya, Aichi 4648602, Japan; Univ Napoli Federico II, I-80126 Naples, Italy; Nara Womens Univ, Nara 6308506, Japan; Natl United Univ, Miaoli 36003, Taiwan; Natl Taiwan Univ, Dept Phys, Taipei 10617, Taiwan; H Niewodniczanski Inst Nucl Phys, PL-31342 Krakow, Poland; Nippon Dent Univ, Niigata 9518580, Japan; Niigata Univ, Niigata 9502181, Japan; Novosibirsk State Univ, Novosibirsk 630090, Russia; Osaka City Univ, Osaka 5588585, Japan; Pacific Northwest Natl Lab, Richland, WA 99352 USA; Panjab Univ, Chandigarh 160014, India; Peking Univ, Beijing 100871, Peoples R China; Univ Pittsburgh, Pittsburgh, PA 15260 USA; Punjab Agr Univ, Ludhiana 141004, Punjab, India; Osaka Univ, Res Ctr Nucl Phys, Osaka 5670047, Japan; RIKEN, Meson Sci Lab, Cluster Pioneering Res, Wako, Saitama 3510198, Japan; Univ Sci & Technol China, Dept Modern Phys, Hefei 230026, Peoples R China; Univ Sci & Technol China, State Key Lab Particle Detect & Elect, Hefei 230026, Peoples R China; Seoul Natl Univ, Seoul 08826, South Korea; Showa Pharmaceut Univ, Tokyo 1948543, Japan; Soongsil Univ, Seoul 06978, South Korea; Sungkyunkwan Univ, Suwon 16419, South Korea; Univ Sydney, Sch Phys, Sydney, NSW 2006, Australia; Univ Tabuk, Fac Sci, Dept Phys, Tabuk 71451, Saudi Arabia; Tata Inst Fundamental Res, Mumbai 400005, Maharashtra, India; Tech Univ Munich, Dept Phys, D-85748 Garching, Germany; Toho Univ, Funabashi, Chiba 2748510, Japan; Tohoku Univ, Dept Phys, Sendai, Miyagi 9808578, Japan; Univ Tokyo, Earthquake Res Inst, Tokyo 1130032, Japan; Univ Tokyo, Dept Phys, Tokyo 1130033, Japan; Tokyo Inst Technol, Tokyo 1528550, Japan; Tokyo Metropolitan Univ, Tokyo 1920397, Japan; Virginia Polytech Inst & State Univ, Blacksburg, VA 24061 USA; Wayne State Univ, Detroit, MI 48202 USA; Yamagata Univ, Yamagata 9908560, Japan; Yonsei Univ, Seoul 03722, South Korea | Park, Hyungkyu/JVZ-0024-2024; zhang, xu/JXX-7692-2024; Pakhlova, Galina/C-5378-2014; Chilikin, Kirill/B-4402-2014; Sandilya, Saurabh/AAR-2477-2021; Pakhlov, Pavel/K-2158-2013; Ishikawa, Akimasa/G-6916-2012; Wang, Dongyang/ABG-9015-2021; Shimizu, Noritaka/AHE-7477-2022; Gaur, Vipin/HZM-4280-2023; Solovieva, Elena/B-2449-2014; Shwartz, Boris/N-2673-2014; Cervenkov, Daniel/D-2884-2017; Egorychev, Victor/H-1076-2014; Doležal, Zdeněk/K-6861-2017; Bilka, Tadeáš/Q-3680-2017; Tenchini, Francesco/JTT-8673-2023; Nellikunnummel, Nisar/AAY-7200-2021; Uglov, Timofey/B-2406-2014; Popov, Vitaliy/C-9925-2016; Tamponi, Umberto/AGG-5576-2022; Hou, Wei/F-4996-2015; Iwasaki, Masako/AAG-6574-2019; Cheon, Byung/B-3035-2008; Dong, Thanh/MIT-2305-2025; Li, Jiarong/ABG-6750-2022; Wang, Hui/GLT-7990-2022; Oskin, Pavel/AAB-5345-2020; Werbycka, Olga/HTQ-3921-2023; Kodys, Peter/P-2636-2017; Paul, Stephan/F-7596-2015; Pestotnik, Rok/A-3626-2008; Zhukova, Valentina/C-8878-2016; Campajola, Marcello/V-1689-2019; Niiyama, Masayuki/HPE-8084-2023; lu, Li/KBA-2603-2024; Aihara, Hiroaki/F-3854-2010; Kumar, Abhishek/KCL-4676-2024; Babu, V/L-1728-2013; Kim, Ji Hoon/AAB-4602-2022; Liventsev, Dmitri/MYR-0735-2025; Pachariya, Manoj/A-9646-2016; Mizuk, Roman/B-3751-2014; Aushev, Tagir/AAN-9735-2020; Waheed, Eiasha/AAG-6743-2021; Won, Eunil/S-7182-2019; Iijima, Toru/LNR-4469-2024; Bondar, Alexander/O-9312-2017; Korobov, Alexandr/G-7402-2018; Križan, Peter/L-7809-2016; Kovalenko, Evgeniy/AAL-6514-2021; Choudhury, Seema/LEM-7962-2024; Sumiyoshi, Takayuki/Q-5536-2017 | 57222187903; 35227285100; 57208069443; 35226935400; 26431253400; 35226924300; 57205336008; 35226925000; 36473131000; 56673779100; 35226929900; 57943353600; 35313360100; 57208362193; 56624583600; 57055915400; 25926337000; 57214846563; 57206506584; 57225386308; 35271332600; 35226974400; 57201115046; 57204568429; 55913471500; 35225729000; 35271166300; 57225375986; 57207576178; 57207798241; 57216645386; 35227095000; 59110376400; 57767118500; 57215682164; 55368264400; 57202083225; 35227136100; 57208830718; 57214699347; 57488886000; 57220210877; 35227130100; 15126870300; 34569178400; 35227244500; 57219588212; 37074665000; 35227272700; 7102961266; 35233679700; 57000100700; 57219331214; 15848423500; 7404213171; 35227356500; 35227366200; 55817230300; 56411594700; 56522611500; 35227389900; 7103061159; 35227405400; 7201781287; 59299091500; 35227379900; 35221743200; 35227523300; 8062452400; 57199973280; 35225891500; 59774093100; 7601588326; 59734007100; 35227494800; 14826956800; 53063887800; 57170079600; 57080476200; 10639485800; 35227502900; 35227570700; 58018872200; 55553737220; 57216645334; 57205335932; 56419217900; 46661127500; 56812501100; 57257924100; 58754147400; 26867892800; 55820982400; 57211034012; 56812540000; 57205390925; 56779517600; 59587666000; 18536939900; 36876647700; 57195488802; 56235238900; 35227750200; 35227732200; 57203524033; 57194197815; 57219797292; 57219719005; 55632289100; 57219627811; 57215134786; 35227762800; 7401965457; 57211715084; 35227740400; 35234620700; 6602539790; 35086680500; 57207467557; 57219437245; 7401979314; 35227847800; 35227892100; 57205388346; 35227932600; 35227850000; 36099403700; 57203886941; 35732304700; 8721811800; 57213625981; 7202429853; 57215857178; 7403480472; 56985930800; 57215862663; 8059063000; 56482852900; 8721812700; 35228014600; 56985327200; 57214214242; 35227980100; 57221053071; 55628572552; 7004048116; 57212378611; 25958374200; 35227948400; 57204951723; 6603406495; 55554740400; 55913607000; 35942976800; 57236402500; 8388152800; 37103051300; 35228062300; 56388230800; 35228072600; 59828691600; 59498189200; 35228086800; 35228106200; 35228154000; 57204557858; 57222996364; 35273620100; 57193702443; 59091623000; 35228078700; 57202261521; 35228289800; 57224183690; 35274124300; 55966462800; 57204951807; 55286044100; 56449839600; 55145482100; 59640793400; 35228211600; 57990888000 | PHYSICAL REVIEW D | PHYS REV D | 2470-0010 | 2470-0029 | 104 | 11 | SCIE | ASTRONOMY & ASTROPHYSICS;PHYSICS, PARTICLES & FIELDS | 2021 | 5.407 | 22.4 | 0 | 2025-07-30 | 0 | 0 | HADRONIC TRANSITIONS; IDENTIFICATION | English | 2021 | 2021-12-15 | 10.1103/physrevd.104.112006 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||||
| ○ | ○ | Article | Influence of Thermo-sonication and Ascorbic Acid Treatment on Microbial Inactivation and Shelf-Life Extension of Soft Persimmon (Diospyros kaki T.) Juice | This study applied hurdle technology to achieve effective microbial inactivation, and concurrently improve the qualities of soft persimmon juice during storage. Hurdle technology applied was based on moderate temperature, ultrasonication, and pH adjustment (using ascorbic acid) as preservative factors. The inactivation effect of preservative factors and their varying combinations at different levels on Escherichia coli and Listeria monocytogenes was investigated via a stepwise approach to determine suitable inactivation conditions. The hurdle treatment for soft persimmon juice was determined based on the results of microbial inactivation and sensory test as the addition of 1% ascorbic acid combined with thermo-sonication at 50 degrees C for 30 min (AAUSHT). The effect of individual and hurdle treatment on juice storage quality was examined for 21 days at 4 degrees C. AAUSHT effectively inhibited both bacteria and fungi growth ( 4 log CFU/mL). Furthermore, AAUSHT effectively reduced non-enzymatic browning, color change, and maintained apparent viscosity of juice. | Park, Jong Jin; Olawuyi, Ibukunoluwa Fola; Lee, Won Young | Kyungpook Natl Univ, Sch Food Sci & Biotechnol, Daegu 41566, South Korea | Lee, Wonyoung/AAL-2780-2021; Olawuyi, Ibukunoluwa/H-1232-2018; Park, Jongjin/AAL-3484-2021 | 58602432200; 57204471854; 57195940408 | wonyoung@knu.ac.kr; | FOOD AND BIOPROCESS TECHNOLOGY | FOOD BIOPROCESS TECH | 1935-5130 | 1935-5149 | 14 | 3 | SCIE | FOOD SCIENCE & TECHNOLOGY | 2021 | 5.581 | 22.6 | 1.56 | 2025-07-30 | 28 | 28 | Ascorbic acid; Hurdle technology; Microbial inactivation; Soft persimmon juice; Thermo-ultrasonication | CLOUDY APPLE JUICE; ESCHERICHIA-COLI; LISTERIA-MONOCYTOGENES; QUALITY PARAMETERS; ULTRASOUND; FRUIT; ANTIOXIDANT; IMPROVE; MANOTHERMOSONICATION; THERMOSONICATION | Ascorbic acid; Hurdle technology; Microbial inactivation; Soft persimmon juice; Thermo-ultrasonication | Escherichia coli; Food storage; Apparent viscosity; Inactivation effect; Listeria monocytogenes; Microbial inactivation; Moderate temperature; Non-enzymatic browning; Shelf life extensions; Thermo sonications; Ascorbic acid | English | 2021 | 2021-03 | 10.1007/s11947-021-02580-8 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |
| ○ | ○ | Article | A piezoelectric micro-electro-mechanical system vector sensor with a mushroom-shaped proof mass for a dipole beam pattern | Vector hydrophones based on a micro-electro-mechanical system (MEMS) hold great promise for under-water communications, due to their potential for miniaturization and mass production. Piezoelectric materials have recently been utilized in the fabrication of MEMS-based vector hydrophones, as less power is typically required for their operation. Here, we propose a millimeter-scale piezoelectric MEMS vector sensor with a suspended cross-shaped beam and a mushroom-shaped proof mass configuration. This design was inspired by the bio-transducer of the lateral line of fish. Sensor fabrication involved piezoelectric Pb (Zr0.52Ti0.48)O-3 thin-film deposition by radio-frequency magnetron sputtering onto the beam structure, followed by a multi-etching process and assembly using a three-axis microassembly technique. The fabricated MEMS vector sensor showed a resonance frequency above the working frequency range, which was suitable for naval applications. The directivity of the proposed sensor was determined by dipole patterns in the x and y directions, with a maximum relative sensitivity difference of -42 dB at 1 kHz. Finite element analysis results for the resonance frequency and directivity were in good agreement with the experimental results, suggesting that the proposed vector sensor could be used in underwater communications as a vector hydrophone. (C) 2021 Elsevier B.V. All rights reserved. | Yeon, Ara; Yeo, Hong Goo; Roh, Yongrae; Kim, Kyungseop; Seo, Hee-Seon; Choi, Hongsoo | Daegu Gyeongbuk Inst Sci & Technol DGIST, Dept Robot Engn, Daegu 42988, South Korea; DGIST, DGIST ETH Microrobot Res Ctr, Daegu 42988, South Korea; Sun Moon Univ, Dept Adv Mat Engn, Asan 31460, South Korea; Kyungpook Natl Univ, Sch Mech Engn, Daegu 41566, South Korea; Agcy Def Dev, Maritime Technol Res Inst, Daejeon 34186, South Korea; DGIST, Robot Res Ctr, Daegu 42988, South Korea | 57218118091; 7005735800; 7102361870; 9634041100; 24765212200; 57762223900 | hgyeo2021@sunmoon.ac.in;mems@dgist.ac.kr;hgyeo2021@sunmoon.ac.kr; | SENSORS AND ACTUATORS A-PHYSICAL | SENSOR ACTUAT A-PHYS | 0924-4247 | 1873-3069 | 332 | SCIE | ENGINEERING, ELECTRICAL & ELECTRONIC;INSTRUMENTS & INSTRUMENTATION | 2021 | 4.291 | 22.7 | 1.35 | 2025-07-30 | 19 | 20 | Hydrophone; Micro-electro-mechanical system (MEMS); Piezoelectric; Thin film; Vector sensor | SOURCE LOCALIZATION; THIN-FILMS; THICKNESS; DESIGN | Hydrophone; Micro-electro-mechanical system (MEMS); Piezoelectric; Thin film; Vector sensor | Etching; Hydrophones; Lead zirconate titanate; Mechanics; MEMS; Natural frequencies; Thin films; Titanium compounds; Vectors; Zirconium compounds; Beam pattern; MEMS (microelectromechanical system); Micro-electro-mechanical system; Piezoelectric; Proof mass; Resonance frequencies; Thin-films; Underwater communication; Vector hydrophones; Vector sensors; Piezoelectricity | English | 2021 | 2021-12-01 | 10.1016/j.sna.2021.113129 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | A Strategic Approach to Use Upcycled Si Nanomaterials for Stable Operation of Lithium-Ion Batteries | Silicon, as a promising next-generation anode material, has drawn special attention from industries due to its high theoretical capacity (around 3600 mAh g(-1)) in comparison with conventional electrodes, e.g., graphite. However, the fast capacity fading resulted by a large volume change hinders the pragmatic use of Si anodes for lithium ion batteries. In this work, we propose an efficient strategy to improve the cyclability of upcycled Si nanomaterials through a simple battery operation protocol. When the utilization degree of Si electrodes was decreased, the electrode deformation was significantly alleviated. This directly led to an excellent electrochemical performance over 100 cycles. In addition, the average charge (delithation) voltage was shifted to a lower voltage, when the utilization degree of electrodes was controlled. These results demonstrated that our strategic approach would be an effective way to enhance the electrochemical performance of Si anodes and improve the cost-effectiveness of scaling-up the decent nanostructured Si material. | Kim, Junghwan; Kwon, Jisoo; Kim, Min Ji; Jung, Dae Soo; Roh, Kwang Chul; Jang, Jihyun; Kim, Patrick Joohyun; Choi, Junghyun | Korea Inst Ceram Engn & Technol, Energy Storage Mat Ctr, Jinju 52851, South Korea; Kyungpook Natl Univ, Dept Appl Chem, Daegu 41566, South Korea; Seoul Natl Univ, Dept Chem & Biol Engn, Seoul 08826, South Korea | Jang, Jihyun/MGU-1459-2025; kim, minji/GRX-9996-2022 | 55966669500; 57356573600; 58366277500; 57220858234; 16233760500; 35175060800; 56031430700; 57195611779; 59883103900 | wndel6@naver.com;wltn0704@naver.com;191008@kicet.re.kr;dsjung@kicet.re.kr;rkc@kicet.re.kr;cjh7228@hanmail.net;pjkim@knu.ac.kr;jchoi@kicet.re.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 12 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 0.44 | 2025-07-30 | 7 | 7 | silicon anode; nanostructured Si; upcycled Si; state of charge control; lithium ion battery | HIGH-ENERGY; SILICON NANOPARTICLES; ANODE; COMPOSITE; ISSUES | Lithium ion battery; Nanostructured Si; Silicon anode; State of charge control; Upcycled Si | English | 2021 | 2021-12 | 10.3390/nano11123248 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | An Organic/Inorganic Nanomaterial and Nanocrystal Quantum Dots-Based Multi-Level Resistive Memory Device | A cadmium selenide/zinc sulfide (CdSe/ZnS) quantum dot (QD)-based multi-level memory device with the structure [ITO/PEDOT:PSS/QDs/ZnO/Al:Al2O3/QDs/Al] was fabricated via a spin-coating method used to deposit thin films. Two layers of QD thin films present in the device act as charge storage layers to form three distinct states. Zinc oxide (ZnO) and aluminum oxide (Al2O3) were added to prevent leakage. ZnO NPs provide orthogonality between the two QD layers, and a poly(3,4-ethylenedioxythio-phene): poly(styrenesulfonate) (PEDOT:PSS) thin film was formed for effective hole injection from the electrodes. The core/shell structure of the QDs provides the quantum well, which causes the trapping of injected charges. The resistance changes according to the charging and discharging of the QDs' trap site and, as a result, the current through the device also changes. There are two quantum wells, two current changes, and three stable states. The role of each thin film was confirmed through I-V curve analysis and the fabrication conditions of each thin film were optimized. The synthesized QDs and ZnO nanoparticles were evaluated via X-ray diffraction, transmission electron microscopy, and absorbance and photoluminescence spectroscopy. The measured write voltages of the fabricated device were at 1.8 and 2.4 V, and the erase voltages were -4.05 and -4.6 V. The on/off ratio at 0.5 V was 2.2 x 10(3). The proposed memory device showed retention characteristics of & GE;100 h and maintained the initial write/erase voltage even after 200 iterative operations. | Kim, Sae-Wan; Kwon, JinBeom; Lee, Jae-Sung; Kang, Byoung-Ho; Lee, Sang-Won; Jung, Dong Geon; Lee, Jun-Yeop; Han, Maeum; Kim, Ok-Geun; Saianand, Gopalan; Jung, Daewoong | Korea Inst Ind Technol KITECH, Adv Mechatron R&D Grp, Daegu 42994, South Korea; Gumi Elect & Informat Technol Res Inst GERI, Adv Semicond Res Ctr, Gumi 39253, South Korea; Daegu Technopk Daegu Smart Mfg Innovat Ctr, 46-17 Seongseogongdan Ro, Daegu 42716, South Korea; Kyungpook Natl Univ, Sch Elect Engn, Coll IT Engn, 80 Daehak Ro, Daegu 41566, South Korea; Univ Newcastle, Coll Engn Sci & Environm, Global Ctr Environm Remediat GCER, Callaghan, NSW 2308, Australia | ; Gopalan, Saianand/J-6000-2019 | 56808646500; 57191591392; 56022696100; 7401684697; 57201375104; 56675241000; 57203736115; 55931924500; 59568534800; 38362265400; 36019307900 | kei95304@gmail.com;jinbum0301@kitech.re.kr;jslee1245@geri.re.kr;bhkang@geri.re.kr;swlee@ttp.org;jdg8609@kitech.re.kr;leejy@kitech.re.kr;mehan@knu.ac.kr;ogkim6441@gmail.com;SaiAnand.Gopalan@newcastle.edu.au;dwjung@kitech.re.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 11 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 0.38 | 2025-07-30 | 7 | 7 | CdSe/ZnS quantum dots; multi-level memory; PEDOT:PSS; ZnO nanoparticles | NONVOLATILE MEMORY; OXIDE; PERFORMANCE; LAYER | CdSe/ZnS quantum dots; Multi-level memory; PEDOT:PSS; ZnO nanoparticles | English | 2021 | 2021-11 | 10.3390/nano11113004 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | Analysis of the effect of radiating surface geometry on the beam pattern of underwater acoustic transducers | Piston-type underwater acoustic transducers are used individually as well as in arrays for various acoustic applications. Circular pistons, in particular, are widely used in arrays. However, the performance of an array with circular pistons is restricted due to the limited edge contact of the circular geometry, which in turn limits the radiating power of the array. In this study, the radiation characteristics of other common piston geometries that can readily overcome the edge contact limitation of the circular piston were theoretically investigated and compared with each other. The pistons considered include those with circular, square, hexagonal, and octagonal radiating surfaces. The analysis results confirmed that, for smaller pistons with an equivalent circular diameter less than a half wavelength, the effect of the radiation surface geometry is insignificant. As such, pistons of the other shapes can be used to overcome the limitation of the circular piston without deteriorating the radiation characteristics of the array, which opens up many possibilities regarding the design of underwater acoustic piston arrays. The validity of the theoretical analysis was verified through the finite element analysis and experimental measurement of the radiation pattern of a prototype Tonpilz transducer with an octagonal head mass. (c) 2021 Elsevier B.V. All rights reserved. | Roh, Yongrae; Afzal, Muhammad Shakeel; Kwon, Seol Ryung | Kyungpook Natl Univ, Sch Mech Engn, Daegu 41556, South Korea; Korea Inst Robot Ind Adv, Daegu 41496, South Korea | 7102361870; 57200092141; 55542309100 | yryong@knu.ac.kr; | SENSORS AND ACTUATORS A-PHYSICAL | SENSOR ACTUAT A-PHYS | 0924-4247 | 1873-3069 | 330 | SCIE | ENGINEERING, ELECTRICAL & ELECTRONIC;INSTRUMENTS & INSTRUMENTATION | 2021 | 4.291 | 22.7 | 0.4 | 2025-07-30 | 4 | 5 | Directional factor; Radiation pattern; Piston; Radiating surface geometry; Tonpilz | DESIGN | Directional factor; Piston; Radiating surface geometry; Radiation pattern; Tonpilz | Acoustic transducers; Acoustic wave propagation; Acoustic wave transmission; Engines; Pistons; Underwater acoustic communication; Beam pattern; Circular pistons; Directional factor; Edge contacts; Radiating surface; Radiating surface geometry; Radiation characteristics; Radiation pattern; Surface geometries; Tonpilz; Geometry | English | 2021 | 2021-10-15 | 10.1016/j.sna.2021.112843 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | Analysis of the transmitting characteristics of an acoustic conformal array of multimode tonpilz transducers by the equivalent circuit method | Commonly used underwater acoustic array types include planar and conformal arrays. The conformal array is favorable in practical active sonar systems as it offers superior acoustic performance, but its relatively complicated structure requires sophisticated analysis and design. In general, the characteristics of the array are analyzed using the finite element method (FEM). However, for complicated structures like the conformal array, the FEM is extremely time consuming and computation intensive. In this work, we developed a new equivalent circuit method (ECM) that can facilitate the analysis of the acoustical performance of a conformal array. The proposed ECM can include the effect of mutual interference between constitutive elements of the conformal array in addition to its own property of the array, which has not been possible with conventional equivalent circuits. The new ECM was applied to the analysis of the transmitting characteristics of a conformal array of multimode Tonpilz transducers. The Tonpilz transducer operated at both longitudinal- and flexural-mode resonances simultaneously to achieve a wide bandwidth. A new equivalent circuit to represent the multimodal properties of the Tonpilz transducer itself was derived as well. The validity and efficiency of the analysis of the Tonpilz transducer and the conformal array was verified by comparing the transmitting voltage response spectrum obtained by the ECM with those obtained by the FEM and experimental measurement. For the experimental validation, prototypes of the multimode Tonpilz transducers and their conformal array were fabricated and characterized. (C) 2020 Elsevier B.V. All rights reserved. | Pyo, Seonghun; Lim, Youngsub; Roh, Yongrae | Kyungpook Natl Univ, Sch Mech Engn, Daegu 41556, South Korea; LIG Nex1 Co Ltd, Maritime Integrated Secur Syst, Seongnam 13488, South Korea | 56715171600; 56244666300; 7102361870 | yryong@knu.ac.kr; | SENSORS AND ACTUATORS A-PHYSICAL | SENSOR ACTUAT A-PHYS | 0924-4247 | 1873-3069 | 318 | SCIE | ENGINEERING, ELECTRICAL & ELECTRONIC;INSTRUMENTS & INSTRUMENTATION | 2021 | 4.291 | 22.7 | 1.03 | 2025-07-30 | 15 | 15 | Conformal array; Tonpilz transducer; Equivalent circuit method; Mutual radiation impedance; Finite element method | OPTIMIZATION; IMPEDANCE | Conformal array; Equivalent circuit method; Finite element method; Mutual radiation impedance; Tonpilz transducer | Sonar; Timing circuits; Transducers; Ultrasonic transducers; Underwater acoustics; Acoustical performance; Active sonar systems; Complicated structures; Computation intensives; Equivalent circuit method; Experimental validations; Transmitting characteristics; Transmitting voltage response; Equivalent circuits | English | 2021 | 2021-02-01 | 10.1016/j.sna.2020.112507 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | Atomic Layer Deposition of Ultrathin ZnO Films for Hybrid Window Layers for Cu(Inx,Ga1-x)Se2 Solar Cells | The efficiency of thin-film chalcogenide solar cells is dependent on their window layer thickness. However, the application of an ultrathin window layer is difficult because of the limited capability of the deposition process. This paper reports the use of atomic layer deposition (ALD) processes for fabrication of thin window layers for Cu(In-x,Ga1-x)Se-2 (CIGS) thin-film solar cells, replacing conventional sputtering techniques. We fabricated a viable ultrathin 12 nm window layer on a CdS buffer layer from the uniform conformal coating provided by ALD. CIGS solar cells with an ALD ZnO window layer exhibited superior photovoltaic performances to those of cells with a sputtered intrinsic ZnO (i-ZnO) window layer. The short-circuit current of the former solar cells improved with the reduction in light loss caused by using a thinner ZnO window layer with a wider band gap. Ultrathin uniform A-ZnO window layers also proved more effective than sputtered i-ZnO layers at improving the open-circuit voltage of the CIGS solar cells, because of the additional buffering effect caused by their semiconducting nature. In addition, because of the precise control of the material structure provided by ALD, CIGS solar cells with A-ZnO window layers exhibited a narrow deviation of photovoltaic properties, advantageous for large-scale mass production purposes. | Lee, Jaebaek; Jeon, Dong-Hwan; Hwang, Dae-Kue; Yang, Kee-Jeong; Kang, Jin-Kyu; Sung, Shi-Joon; Park, Hyunwoong; Kim, Dae-Hwan | DGIST, Res Ctr Thin Film Solar Cells, Daegu 42988, South Korea; DGIST, Div Energy Technol, Daegu 42988, South Korea; Kyungpook Natl Univ, Sch Energy Engn, Daegu 41566, South Korea | ; Jin-Kyu, Kang/AAR-9096-2021; Kim, Jihyun/F-6940-2013; Sung, Shi-Joon/AAU-2464-2021; Park, Hyunwoong/A-1247-2012; Hwang, Dae-Kue/ABG-2664-2020 | 57223311737; 55648559900; 7401880233; 15763941100; 35096377300; 7202731923; 7601565583; 57778048600 | hwp@knu.ac.kr;sjsung@dgist.ac.kr;monolith@dgist.ac.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 11 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 0.64 | 2025-07-30 | 8 | 11 | ZnO; atomic layer deposition; ultrathin; window layer; CIGS; solar cells | I-ZNO; PERFORMANCE; ALD | Atomic layer deposition; CIGS; Solar cells; Ultrathin; Window layer; ZnO | English | 2021 | 2021-11 | 10.3390/nano11112779 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | Controlled Growth of Silver Oxide Nanoparticles on the Surface of Citrate Anion Intercalated Layered Double Hydroxide | Silver oxide nanoparticles with controlled particle size were successfully obtained utilizing citrate-intercalated layered double hydroxide (LDH) as a substrate and Ag+ as a precursor. The lattice of LDH was partially dissolved during the reaction by Ag+. The released hydroxyl and citrate acted as a reactant in crystal growth and a size controlling capping agent, respectively. X-ray diffraction, X-ray photoelectron spectroscopy, and microscopic measurements clearly showed the development of nano-sized silver oxide particles on the LDH surface. The particle size, homogeneity and purity of silver oxide were influenced by the stoichiometric ratio of Ag/Al. At the lowest silver ratio, the particle size was the smallest, while the chemical purity was the highest. X-ray photoelectron spectroscopy and UV-vis spectroscopy results suggested that the high Ag/Al ratio tended to produce silver oxide with a complex silver environment. The small particle size and homogeneous distribution of silver oxide showed advantages in antibacterial efficacy compared with bulk silver oxide. LDH with an appropriate ratio could be utilized as a substrate to grow silver oxide nanoparticles with controlled size with effective antibacterial performance. | Jeung, Do-Gak; Lee, Minseop; Paek, Seung-Min; Oh, Jae-Min | Dongguk Univ Seoul, Dept Energy & Mat Engn, Seoul 04620, South Korea; Kyungpook Natl Univ, Dept Chem, Daegu 41566, South Korea | ; Lee, Minseop/JVZ-7552-2024; Paek, Seung-Min/E-4667-2011 | 57211288466; 57201550392; 7102686289; 7402155053 | jdk941101@gmail.com;shlee6697@naver.com;smpaek@knu.ac.kr;jaemin.oh@dongguk.edu; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 2 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 1.33 | 2025-07-30 | 19 | 24 | silver oxide; nanoparticle; layered double hydroxide; crystal growth; antibacterial | Antibacterial; Crystal growth; Layered double hydroxide; Nanoparticle; Silver oxide | English | 2021 | 2021-02 | 10.3390/nano11020455 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||||
| ○ | ○ | Article | Electrically Conducting Pullulan-Based Nanobiocomposites Using Carbon Nanotubes and TEMPO Cellulose Nanofibril | Hybrid nanobiocomposite films are prepared using a solution casting by incorporating TEMPO cellulose nanofibrils (TOCNs) and carbon nanotubes (CNTs) into an aqueous solution of pullulan (PULL). The presence of CNT is confirmed by XRD characterization, and the prepared film shows an increased degree of crystallinity after the addition of TOCNs and CNT. The maximum degree of crystallinity value is obtained for CNT 0.5 % (59.64%). According to the Fourier-transform infrared spectroscopy, the shifts of the characteristic -OH peak of PULL occurred after the addition of TOCNs and aqueous CNT (3306.39 to 3246.90 cm(-1)), confirming interaction between the TOCNs, CNTs, and PULL matrix. The prepared films show enhanced material properties including higher tensile strength (65.41 MPa at low CNT content (0.5%)), water barrier properties, and reduced moisture susceptibility (5 wt.% CNT shows the lowest value (11.28%)) compared with the neat PULL film. Additionally, the prepared films are almost biodegradable within 64 days and show excellent electrical conductivity (0.001 to 0.015 S/mm for 0.5-5% CNT), which suggests a new approach to transform natural polymers into novel advanced materials for use in the fields of biosensing and electronics. | Yeasmin, Sabina; Yeum, Jeong Hyun; Ji, Byung Chul; Choi, Jin Hyun; Yang, Seong Baek | Kyungpook Natl Univ, Dept Biofibers & Biomat Sci, Daegu 41566, South Korea; Kyungpook Natl Univ, Dept Adv Mat Sci & Engn, Daegu 41566, South Korea | ; Yang, Seong/AAP-1745-2020 | 57216565706; 6602257098; 7102565394; 36076723600; 56258526300 | yeasminsabina44@yahoo.com;jhyeum@knu.ac.kr;bcji@knu.ac.kr;jinhchoi@knu.ac.kr;ysb@knu.ac.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 3 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 0.64 | 2025-07-30 | 7 | 11 | pullulan; tempo cellulose nanofibrils; carbon nanotubes; nanocomposite film; thermal and mechanical properties; biodegradability; conductivity | Biodegradability; Carbon nanotubes; Conductivity; Nanocomposite film; Pullulan; Tempo cellulose nanofibrils; Thermal and mechanical properties | English | 2021 | 2021-03 | 10.3390/nano11030602 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||||
| ○ | ○ | Article | Enhanced Light Absorption by Facile Patterning of Nano-Grating on Mesoporous TiO2 Photoelectrode for Cesium Lead Halide Perovskite Solar Cells | CsPbIBr2, a cesium-based all-inorganic halide perovskite (CsPe), is a very promising alternative material to mainstream organic-inorganic hybrid halide perovskite (HPe) materials owing to its exceptional moisture stability, thermal stability, and light stability. However, because of the wide band gap (2.05 eV) of CsPbIBr2, it has a low power conversion efficiency (PCE), which hinders its application in highly efficient solar cells. In this study, a facile nanoimprinted one-dimensional grating nanopattern (1D GNP) formation on mesoporous TiO2 (mp-TiO2) photoelectrodes was introduced to improve the effective light utilization and enhance the performance of CsPbIBr2 perovskite solar cells (PSCs). The 1D GNP structure on the mp-TiO2 layer increases the light absorption efficiency by diffracting the unabsorbed light into the active mp-TiO2 and CsPbIBr2 layers as well as increasing the charge separation and collection due to the extended interfacial contact area between the mp-TiO2 and CsPbIBr2 layers. Consequently, both the current density (J(SC)) and the fill factor (FF) of the fabricated cells improved, leading to over a 20% enhancement in the solar cell's PCE. Thus, this periodic grating structure, fabricated by simple nanoimprinting, could play an important role in the large-scale production of highly efficient and cost-effective Cs-based PSCs. | Kim, Kang-Pil; Kim, Wook Hyun; Kwon, Soo Min; Kim, Jun Yong; Do, Yun Seon; Woo, Sungho | Daegu Gyeongbuk Inst Sci & Technol DGIST, Div Energy Technol, Daegu 42988, South Korea; Kyungpook Natl Univ, Sch Elect & Elect Engn, Daegu 41566, South Korea | Kim, Jung Kyu/C-3271-2012 | 8136159100; 55346188400; 57191977365; 57209837877; 24338060500; 7402852149 | kkp@dgist.ac.kr;kwh1980@dgist.ac.kr;soomin3542@dgist.ac.kr;rhawns4567@knu.ac.kr;yuns.do@knu.ac.kr;shwoo@dgist.ac.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 5 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 0.51 | 2025-07-30 | 10 | 9 | CsPbIBr2; perovskite solar cell; mesoporous TiO2; nanoimprinting; grating nanopattern; increased light absorption | PERFORMANCE; ANTIREFLECTION; FABRICATION; EFFICIENCY; STABILITY; BARIUM; DESIGN; LAYER; FILMS | CsPbIBr2; Grating nanopattern; Increased light absorption; Mesoporous TiO2; Nanoimprinting; Perovskite solar cell | English | 2021 | 2021-05 | 10.3390/nano11051233 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | High Sensitivity Shortwave Infrared Photodetector Based on PbS QDs Using P3HT | Shortwave infrared (SWIR) photodetectors are being actively researched for their application in autonomous vehicles, biometric sensors, and night vision. However, most of the SWIR photodetectors that have been studied so far are produced by complex semiconductor fabrication processes and have low sensitivity at room temperature because of thermal noise. In addition, the low wavelength band of the SWIR photodetectors currently used has a detrimental effect on the human eye. To overcome these disadvantages, we propose a solution-processed PbS SWIR photodetector that can minimize harmful effects on the human eye. In this study, we synthesized PbS quantum dots (QDs) that have high absorbance peaked at 1410 nm and fabricated SWIR photodetectors with a conductive polymer, poly(3-hexylthiophene) (P3HT), using the synthesized PbS QDs. The characteristics of the synthesized PbS QDs and the current-voltage (I-V) characteristics of the fabricated PbS SWIR photodetectors were measured. It was found that the maximum responsivity of the optimized PbS SWIR photodetector with P3HT was 2.26 times that of the PbS SWIR photodetector without P3HT. Moreover, due to the high hole mobility and an appropriate highest occupied molecular orbital level of P3HT, the former showed a lower operating voltage. | Kwon, Jin Beom; Han, Maeum; Jung, Dong Geon; Kong, Seong Ho; Jung, Daewoong | Korea Inst Ind Technol KITECH, Adv Mechatron R&D Grp, Daegu 42994, South Korea; Kyungpook Natl Univ, Coll IT Engn, Sch Elect & Elect Engn, 80 Daehakro, Daegu 41566, South Korea | 57191591392; 55931924500; 56675241000; 57204537951; 36019307900 | jinbum0301@kitech.re.kr;mehan@knu.ac.kr;jdg8609@kitech.re.kr;shkong@knu.ac.kr;dwjung@kitech.re.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 10 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 0.57 | 2025-07-30 | 10 | 10 | infrared; SWIR photodetector; PbS; quantum dots; P3HT | QUANTUM DOTS; SOLAR-CELLS; ZNO; HETEROJUNCTION; NANOCRYSTALS; EFFICIENCY; CDS | Infrared; P3HT; PbS; Quantum dots; SWIR photodetector | English | 2021 | 2021-10 | 10.3390/nano11102683 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||||
| ○ | ○ | Article | Homogeneous and Multiphase Analysis of Nanofluids Containing Nonspherical MWCNT and GNP Nanoparticles Considering the Influence of Interfacial Layering | The practical implication of nanofluids is essentially dependent on their accurate modelling, particularly in comparison with the high cost of experimental investigations, yet the accuracy of different computational approaches to simulate nanofluids remains controversial to this day. Therefore, the present study is aimed at analysing the homogenous, multiphase Eulerian-Eulerian (volume of fluid, mixture, Eulerian) and Lagrangian-Eulerian approximation of nanofluids containing nonspherical nanoparticles. The heat transfer and pressure drop characteristics of the multiwalled carbon nanotubes (MWCNT)-based and multiwalled carbon nanotubes/graphene nanoplatelets (MWCNT/GNP)-based nanofluids are computed by incorporating the influence of several physical mechanisms, including interfacial nanolayering. The accuracy of tested computational approaches is evaluated by considering particle concentration and Reynolds number ranges of 0.075-0.25 wt% and 200-470, respectively. The results demonstrate that for all nanofluid combinations and operational conditions, the Lagrangian-Eulerian approximation provides the most accurate convective heat transfer coefficient values with a maximum deviation of 5.34% for 0.25 wt% of MWCNT-water nanofluid at the largest Reynolds number, while single-phase and Eulerian-Eulerian multiphase models accurately estimate the thermal fields of the diluted nanofluids at low Reynolds numbers, but overestimate the results for denser nanofluids at high Reynolds numbers. | Ambreen, Tehmina; Saleem, Arslan; Park, Cheol Woo | Kyungpook Natl Univ, Sch Mech Engn, 80 Daehakro, Daegu 41566, South Korea | Saleem, Arslan/ABA-5982-2021 | 57195420431; 57194776354; 7408416474 | tehminaambreen91@gmail.com;arslansaleem@knu.ac.kr;chwoopark@knu.ac.kr; | NANOMATERIALS | NANOMATERIALS-BASEL | 2079-4991 | 11 | 2 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;MATERIALS SCIENCE, MULTIDISCIPLINARY;NANOSCIENCE & NANOTECHNOLOGY;PHYSICS, APPLIED | 2021 | 5.719 | 22.7 | 1.65 | 2025-07-30 | 21 | 29 | nanofluids; interfacial nanolayering; nonspherical nanoparticles; homogeneous; Eulerian– Eulerian; Lagrangian– Eulerian | CONVECTIVE HEAT-TRANSFER; LAMINAR FORCED-CONVECTION; 2-PHASE MODELS; THERMAL-CONDUCTIVITY; TRANSFER ENHANCEMENT; HYBRID-NANOFLUID; WATER NANOFLUID; SINGLE-PHASE; AL2O3 NANOFLUID; BROWNIAN-MOTION | Eulerian–Eulerian; Homogeneous; Interfacial nanolayering; Lagrangian–Eulerian; Nanofluids; Nonspherical nanoparticles | English | 2021 | 2021-02 | 10.3390/nano11020277 | 바로가기 | 바로가기 | 바로가기 | 바로가기 |
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