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Przejdź do strony domowej biblioteki Pedagogiczna Biblioteka Wojewódzka im. Komisji Edukacji Narodowej w Lublinie Link otwiera się w nowym oknie Logo biblioteki Prolib Integro - strona głównaPedagogiczna Biblioteka Wojewódzka im. Komisji Edukacji Narodowej w Lublinie
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    Wyświetlanie 1-5 z 5
    Tytuł:
    Single-electron transport characteristics in quantum dot arrays due to ionized dopants
    Autorzy:
    Moraru, D.
    Ligowski, M.
    Tarido, J. C.
    Miki, S.
    Nakamura, R.
    Yokoi, K.
    Mizuno, T.
    Tabe, M.
    Tematy:
    single dopant
    silicon nanowire
    single-electron transport
    single-electron transfer
    Pokaż więcej
    Wydawca:
    Sieć Badawcza Łukasiewicz - Przemysłowy Instytut Automatyki i Pomiarów
    Powiązania:
    https://bibliotekanauki.pl/articles/384277.pdf  Link otwiera się w nowym oknie
    Opis:
    Single charge manipulation for useful electronic functionalities has become an exciting and fast-paced direction of research in recent years. In structures with dimensions below about 100 nm, the physics governing the device operation turn out to be strikingly different than in the case of larger devices. The presence of even a single charge may completely suppress current flow due to the basic electronelectron repulsion (so called Coulomb blockade effect) [1]. It is even more exciting to control this effect at the level of single-electron/single-atom interaction. The atomic entity can be one donor present in silicon lattice with a Coulombic potential well. In principle, it can accommodate basically a single electron. We study the electrical behavior of nanoscale-channel silicon-on-insulator field-effect transistors (SOI-FETs) that contain a discrete arrangement of donors. The donors can be utilized as "stepping stones" for the transfer of single charges. This ability opens the doors to a rich world of applications based on the simple interplay of single charges and single atoms, while still utilizing mostly conventional and well established fabrication techniques. In this work, we distinguish the effects of single-electron transport mediated by one or few dopants only. Furthermore, we show how the single-electron/single-donor interaction can be tuned by using the external biases. We demonstrate then by simulation and experiment the feasibility of single-electron/bit transfer operation (single-electron turnstile).
    Dostawca treści:
    Biblioteka Nauki
    Artykuł
    Tytuł:
    Supernova model discrimination with Hyper-Kamiokande
    Autorzy:
    Mineev, O.
    Minakata, H.
    Nakayoshi, K.
    Gialanella, L.
    Zaldivar, B.
    Kato, A.
    Kim, S. Y.
    Ashida, Y.
    Wilkes, R. J.
    Garode, S.
    Feng, J.
    Vilela, C.
    Pac, M. Y.
    Karlen, D.
    Suganuma, T.
    Kajita, T.
    Paganini, P.
    Lu, X.
    Gramegna, F.
    Nakadaira, T.
    Yano, T.
    Ostrowski, Michał
    Vivolo, D.
    Matusiak, M.
    Fiorillo, G.
    Mazzucato, E.
    Finch, A.
    Hiraide, K.
    Navarro-Garcia, B.
    Mondal, T.
    Ikeda, M.
    Insler, J.
    Kudenko, Y.
    Sato, K.
    Kumita, T.
    Malinský, M.
    Lamers James, M.
    Nascimento Machado, L.
    Wronka, S.
    Ohta, K.
    Iijima, T.
    Gornea, R.
    Maret, L.
    Jeon, S. H.
    Lim, I. T.
    Fiorentini, A.
    Matsumoto, R.
    O'Connor, E.
    Coleman, J.
    Harada, M.
    Kikawa, T.
    Danilov, M.
    Kearns, E.
    Yamaguchi, Y.
    Magaletti, L.
    Cartwright, S. L.
    Nishimura, Y.
    Jang, J. S.
    Radicioni, E.
    Vasseur, G.
    Barr, G.
    Porwit, K.
    Nakagiri, K.
    La Commara, M.
    Learned, J. G.
    Hirota, S.
    Marchi, T.
    Mollo, C. M.
    Di Palma, I.
    Sakashita, K.
    Izmaylov, A.
    El Hedri, S.
    Tsukamoto, T.
    Ochoa-Ricoux, J. P.
    Takemoto, Y.
    Medhi, A.
    Bonavera, L.
    Hartz, M.
    Pozimski, J.
    Zakrzewski, T.
    Chabera, M.
    Kinoshita, T.
    Stankevich, K. L.
    Payne, D.
    Renner, J.
    Doyle, T. A.
    Sashima, I.
    Matsuno, S.
    Takenaka, A.
    Loverre, P.
    Wachala, T.
    Gumplinger, P.
    Booth, N.
    Onishchuk, Y.
    Ichikawa, A. K.
    Ovsiannikova, T.
    Suzuki, A. T.
    Kameda, J.
    Sano, S.
    Yoo, J.
    Nakai, S.
    Hartfiel, B.
    Jiang, M.
    Moon, C. S.
    Pari, M.
    Jamieson, B.
    Hoshina, K.
    Nakajima, Y.
    Feusels, T.
    Ruggles, C.
    Drapier, O.
    Prouse, N. W.
    Kurjata, R.
    Mefodiev, A.
    Sekiguchi, T.
    Aushev, V.
    Labarga, L.
    Blanchet, A.
    Uchida, Y.
    Berardi, V.
    Yokoyama, M.
    Evangelisti, A.
    Kormos, L. L.
    Yeum, D. N.
    Wendell, R. A.
    Iacob, F.
    Ogawa, N.
    O'Sullivan, E.
    Yamamoto, K.
    Itow, Y.
    Boyd, S. B.
    Pasternak, J.
    Ruggeri, A. C.
    Ozaki, H.
    Boiano, A.
    Smy, M. B.
    Roth, S.
    Kim, S. B.
    Ferrazzi, B.
    Xie, Z.
    Xin, T.
    Stellacci, S. M.
    Fukuda, Y.
    Kouzakov, K. A.
    Kim, J. H.
    Sobczyk, J.
    Drakopoulou, E.
    Miki, S.
    De la Fuente, E.
    Munteanu, L.
    Yu, M.
    Hernando-Morata, J. A.
    Longhin, A.
    Orozco-Luna, F.
    Zarnecki, G.
    Korzenev, A.
    Spina, R.
    Lamoureux, M.
    Mongelli, M.
    Tzanov, M.
    Ioannisian, A.
    Cafagna, F. S.
    Mermod, P.
    González-Nuevo, J.
    Carroll, A.
    Garde, C.
    Grella, G.
    Bernardini, E.
    Palladino, V.
    Kravchuk, L.
    Boschi, T.
    Playfer, S.
    Tanaka, M.
    Suvorov, S.
    Rountree, S. D.
    Aihara, H.
    Buchowicz, A.
    Ameli, F.
    Akutsu, R.
    Hassani, S.
    Mahn, K.
    Fernández-Martinez, E.
    Cicerchia, M.
    Barker, G. J.
    Martin, D.
    Idrissi Ibnsalih, W.
    Anghel, I.
    Fernandez, P.
    Jonsson, P.
    Cook, L.
    Ishida, T.
    Wark, D.
    Martin, J. F.
    Borjabad, S.
    Checchia, C.
    Seo, J. W.
    Lindner, T.
    Pavin, M.
    Mora, F. J.
    Miura, M.
    Mellet, L.
    Russo, S.
    Sobel, H. W.
    Taketa, A.
    Ziembicki, M.
    Khotjantsev, A.
    Nakahata, M.
    Di Meo, P.
    Fujii, Y.
    Daz Lopez, G.
    Riccio, C.
    Wilson, J. R.
    Ito, S.
    Marinelli, A.
    Jang, H. I.
    Shimizu, I.
    Collazuol, G.
    Finley, C.
    Niewczas, K.
    Gorin, A.
    Berns, L.
    Antonova, M.
    Guigue, M.
    Densham, C. J.
    Sarmah, P.
    Poutissou, J. -M.
    Bozza, C.
    McGrew, C.
    Calabria, N. F.
    Ito, H.
    Bhadra, S.
    Peña-Garay, C.
    Shiozawa, M.
    Skwarczynski, K.
    Mariani, C.
    Kakuno, H.
    Magar, K.
    Konaka, A.
    Galinski, G.
    Ludovici, L.
    Taani, M.
    Yen, S.
    Friend, M.
    Shaykina, A.
    Cuen-Rochin, S.
    Soler, F. J. P.
    Jakkapu, M.
    Mezzetto, M.
    Murase, K.
    Pointon, B. W.
    Miller, E. W.
    Marti, Ll.
    Shin, C. D.
    Dumarchez, J.
    Kryukov, A. P.
    Kasperek, J.
    Ishidoshiro, K.
    Nakamura, KI.
    Pastore, C.
    Inomoto, M.
    Gomez-Cadenas, J. J.
    Suárez Gómez, S. L.
    Kisiel, J.
    Lee, J.
    Popov, A.
    Patel, D. A.
    Vijayvargi, A.
    Ellis, J.
    Joo, K. K.
    Khabibullin, M.
    Suzuki, Y.
    Grassi, M.
    Minamino, A.
    Svoboda, R.
    Malek, M.
    Walker, J.
    Zalipska, J.
    Menjo, H.
    Rubbia, A.
    Fitton, M.
    Rajda, P. J.
    Shinoki, M.
    Valentino, V.
    Tada, M.
    Santucci, G.
    Horiuchi, S.
    Giganti, C.
    Mehta, P.
    Seo, S. H.
    Kotsar, Y.
    Vyalkov, M. M.
    Holin, A.
    Choubey, S.
    Studenikin, A. I.
    Quiroga, A. A.
    Esmaili, A.
    Ishino, H.
    Bronner, C.
    Kobayashi, T.
    Bravo-Berguño, D.
    Okumura, K.
    Radics, B.
    Koshio, Y.
    Cao, S.
    Ishitsuka, M.
    Long, K. R.
    Sgalaberna, D.
    Makida, Y.
    Vagins, M. R.
    Monrabal, F.
    Di Lodovico, F.
    Bolognesi, S.
    Bose, D.
    Kazarian, N.
    Kalaczynski, P.
    Pinzon Guerra, E.
    Esteve, R.
    Kataoka, Y.
    Ogitsu, T.
    Takeuchi, Y.
    Stopa, K.
    Kano, Y.
    Parsa, S.
    Asaoka, Y.
    Deshmukh, N.
    Blaszczyk, F. d. M.
    Hastings, N. C.
    Quilain, B.
    Suzuki, S. Y.
    Koga, M.
    Litchfield, R. P.
    Richards, B.
    Feely, M.
    Laveder, M.
    McCarthy, M.
    Tortone, G.
    Rondio, E.
    Migliozzi, P.
    Kwak, K.
    Inoue, K.
    Przewlocki, P.
    Abe, K.
    Naseby, C. E. R.
    Nakaya, T.
    Pronost, G.
    Takhistov, V.
    Metelko, C.
    Bellato, M.
    Popov, B.
    Rychter, A.
    de Perio, P.
    Sonoda, Y.
    Nakamura, H.
    Frankiewicz, K.
    Bian, J.
    Batkiewicz-Kwasniak, M.
    Hill, J.
    Nicholls, T.
    Yershov, N.
    Nakayama, S.
    Lagoda, J.
    Santos, J. D.
    Spisso, B.
    Pidcott, C.
    Roskovec, B.
    Bubak, A.
    Tomatani-Sánchez, A. K.
    Zsoldos, S.
    Izumi, N.
    Sinnis, G.
    Moharana, R.
    Sánchez, M. L.
    Bravar, A.
    Dunne, P.
    Ferrario, P.
    Scott, M.
    Obrebski, W.
    Retiere, F.
    Kikec, M.
    Dergacheva, A.
    Alekseev, I.
    Gonin, M.
    Gao, J.
    Bandac, I.
    Hadley, D. R.
    Samani, S.
    Anthony, L. H. V.
    Rott, C.
    O'Keeffe, H. M.
    Noah, E.
    Skrobova, N.
    Migenda, J.
    Hayato, Y.
    Araya, A.
    Nakamura, K.
    Eklund, L.
    Suwa, Y.
    Tanaka, H. I.
    Leitner, R.
    Fedotov, S.
    Ryu, D.
    Garfagnini, A.
    Kowalik, K. L.
    De Rosa, G.
    King, S.
    Xia, J.
    Blondel, A.
    Kutter, T.
    Spradlin, P.
    Bernard, L.
    Chakraborty, S.
    Emery, S.
    Ospina, N.
    Pastuszak, G.
    Bergevin, M.
    Catanesi, M. G.
    Koch, L.
    Kolev, N.
    Ziętara, Krzysztof
    Jo, H. S.
    Nagao, Y.
    Lawe, M.
    Okamoto, K.
    Ballester, F.
    Maekawa, Y.
    Iwamoto, K.
    Cebriàn, S.
    Ricciardi, G.
    Zaremba, K.
    Mueller, Th. A.
    Rescigno, M.
    Moon, D. H.
    Matsubara, T.
    Dziewiecki, M.
    Herrero, V.
    Oyama, Y.
    Zito, M.
    Cowan, G.
    Tanaka, H.
    Dealtry, T.
    Koerich, L.
    Stawarz, Łukasz
    Yu, I.
    Jenkins, S. J.
    Yonenaga, M.
    Lavitola, L.
    Needham, M.
    Calvo-Mozota, J. M.
    Buizza Avanzini, M.
    Ali, A.
    Moriyama, S.
    Sanchez, M. C.
    Adrich, P.
    Thiesse, M.
    Tsui, K. M.
    Vinning, W. G. S.
    Yanagisawa, C.
    Kuze, M.
    Brown, L.
    Sánchez, F.
    Wilking, M. J.
    Klekotko, A.
    Gousy-Leblanc, V.
    Lezaun, V.
    McElwee, J.
    Choi, J. H.
    O'Sullivan, L.
    Mitra, A.
    Takeda, A.
    Thompson, L. F.
    Tanaka, H. A.
    Mijakowski, P.
    Kim, J. Y.
    Paolone, V.
    Sekiya, H.
    Nova, F.
    Seiya, Y.
    Mine, S.
    Shan, Z.
    Nakano, Y.
    Katori, T.
    Barbi, M.
    Marzec, J.
    Rose, H. J.
    Posiadala-Zezula, M.
    McCauley, N.
    Wascko, M. O.
    Oshlianskyi, A.
    Nugent, J. C.
    Martens, K.
    Nunokawa, H.
    Svirida, D.
    Hultqvist, K.
    Shaikhiev, A.
    Devi, M. M.
    Vladisavljevic, T.
    Tashiro, T.
    Toledo, J.
    Vogelaar, R. B.
    Izumiyama, S.
    Valder, S.
    Opis:
    Core-collapse supernovae are among the most magnificent events in the observable universe. They produce many of the chemical elements necessary for life to exist and their remnants—neutron stars and black holes—are interesting astrophysical objects in their own right. However, despite millennia of observations and almost a century of astrophysical study, the explosion mechanism of core-collapse supernovae is not yet well understood. Hyper-Kamiokande is a next-generation neutrino detector that will be able to observe the neutrino flux from the next galactic core-collapse supernova in unprecedented detail. We focus on the first 500 ms of the neutrino burst, corresponding to the accretion phase, and use a newly-developed, high-precision supernova event generator to simulate Hyper-Kamiokande's response to five different supernova models. We show that Hyper-Kamiokande will be able to distinguish between these models with high accuracy for a supernova at a distance of up to 100 kpc. Once the next galactic supernova happens, this ability will be a powerful tool for guiding simulations toward a precise reproduction of the explosion mechanism observed in nature.
    Dostawca treści:
    Repozytorium Uniwersytetu Jagiellońskiego
    Artykuł
    Tytuł:
    Complete set of deuteron analyzing powers from $\vec{d}p$ elastic scattering at 190 MeV/nucleon
    Autorzy:
    Yasuda, J.
    Akieda, T.
    Dozono, M.
    Sakamoto, N.
    Skibiński, Roman
    Kubota, Y.
    Milman, E.
    Tabata, M.
    Wakasa, T.
    Suzuki, H.
    Uesaka, T.
    Wada, Y.
    Witała, Henryk
    Maeda, Y.
    Sekiguchi, K.
    Miki, K.
    Ohkura, A.
    Watanabe, A.
    Yako, K.
    Golak, Jacek
    Yamamoto, T.
    Shindo, Y.
    Chebotaryov, S.
    Sakai, H.
    Eto, D.
    Yanagisawa, Y.
    Kon, H.
    Sasano, M.
    Kamada, H.
    Sakaguchi, S.
    Kawakami, S.
    Opis:
    All deuteron analyzing powers for elastic deuteron-proton (dp) scattering have been measured with a polarized deuteron beam at 186.6 MeV/nucleon. They are compared with results of three-nucleon Faddeev calculations based on the standard, high-precision nucleon-nucleon (NN) potentials alone or combined with commonly used three-nucleon force (3NF) models such as the Tucson-Melbourne '99 or the Urbana IX. Predicted 3NF effects localized at backward angles are supported only partially by the data. The data are also compared to predictions based on locally regularized chiral NN potentials. An estimation of theoretical truncation uncertainties in the consecutive orders of chiral expansion suggests that the observed discrepancies between this modern theory and the data could probably be explained by including chiral 3NF's in future calculations. A systematic comparison to the deuteron analyzing power data previously taken at incident energies from 70 to 294 MeV/nucleon clearly shows that not only the cross section but also the analyzing powers reveal growing 3NF effects when the three-nucleon system energy is increased.
    Dostawca treści:
    Repozytorium Uniwersytetu Jagiellońskiego
    Artykuł
      Wyświetlanie 1-5 z 5

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