776 results on '"Nakajima, N."'
Search Results
2. Dielectric response of BaTiO3 electronic states under AC fields via microsecond time-resolved X-ray absorption spectroscopy
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Kato, S., Nakajima, N., Yasui, S., Yasuhara, S., Fu, D., Adachi, J., Nitani, H., Takeichi, Y., and Anspoks, A.
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Condensed Matter - Materials Science - Abstract
For the first time, the dielectric response of a BaTiO3 thin film under an AC electric field is investigated using time-resolved X-ray absorption spectroscopy at the Ti K-edge to clarify correlated contributions of each constituent atom on the electronic states. Intensities of the pre-edge eg peak and shoulder structure just below the main edge increase with an increase in the amplitude of the applied electric field, whereas that of the main peak decreases in an opposite manner. Based on the multiple scattering theory, the increase and decrease of the eg and main peaks are simulated for different Ti off-center displacements. Our results indicate that these spectral features reflect the inter- and intra-atomic hybridization of Ti 3d with O 2p and Ti 4p, respectively. In contrast, the shoulder structure is not affected by changes in the Ti off-center displacement but is susceptible to the effect of the corner site Ba ions. This is the first experimental verification of the dynamic electronic contribution of Ba to polarization reversal.
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- 2021
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3. Theoretical studies of equilibrium beta limit in heliotron plasmas
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Suzuki, Y., Watanabe, K. Y., Sakakibara, S., Nakajima, N., and Ohyabu, N.
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Physics - Plasma Physics - Abstract
In this study, the MHD equilibrium limit of LHD plasmas is studied using a 3D MHD equilibrium calculation code, HINT, which is an initial value solver based on the relaxation method without the assumption of nested flux surfaces. For finite beta equilibria, flux surfaces become stochastic in the peripheral region. However, though the axis shifts until the conventional limit, the separatrix to limit the equilibrium does not appear. For high beta equilibria, the force balance starts breaking in the stochastic region. To keep the force balance, the pressure gradient in the stochastic region decreases and the fixed profile is reduced. As the result, the volume averaged beta saturates. The beta value, where the force balance starts breaking inside the stochastic region, is proposed as an index of equilibrium beta limit in heliotron plasmas., Comment: 11 pages, 7 figures
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- 2020
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4. Design for the distributed data locator service for multi-site data repositories
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Nakanishi, H., Yamanaka, K., Tokunaga, S., Ozeki, T., Homma, Y., Ohtsu, H., Ishii, Y., Nakajima, N., Yamamoto, T., Emoto, M., Ohsuna, M., Ito, T., Imazu, S., Nonomura, M., Yoshida, M., Ogawa, H., Maeno, H., Aoyagi, M., Yokota, M., Inoue, T., Nakamura, O., Abe, S., and Urushidani, S.
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- 2021
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5. Remote experiment with WEST from ITER Remote Experimentation Centre
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Tokunaga, S., Moreau, P., Signoret, J., Imbeaux, F., Tsitrone, E., Loarer, T., Salmon, T., Hutter, T., Giruzzi, G., Joffrin, E., De Tommasi, G., Sartori, F., Farthing, J., Nakanishi, H., Ozeki, T., Asakura, N., Sakamoto, Y., Ohtsu, H., Sugie, Y., Suzuki, S., Fukuda, M., Nakano, T., Sano, R., Ishii, Y., Clement-Lorenzo, S., and Nakajima, N.
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- 2020
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6. Development of plant concept related to tritium handling in the water-cooling system for JA DEMO
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Hiwatari, R., Katayama, K., Nakamura, M., Miyoshi, Y., Aoki, A., Asakura, N., Utoh, H., Homma, Y., Tokunaga, S., Nakajima, N., Someya, Y., Sakamoto, Y., and Tobita, K.
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- 2019
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7. On-site underground background measurements for the KASKA reactor-neutrino experiment
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Furuta, H., Sakuma, K., Aoki, M., Fukuda, Y., Funaki, Y., Hara, T., Haruna, T., Ishihara, N., Katsumata, M., Kawasaki, T., Kuze, M., Maeda, J., Matsubara, T., Matsumoto, T., Miyata, H., Nagasaka, Y., Nakagawa, T., Nakajima, N., Nitta, K., Sakai, K., Sakamoto, Y., Suekane, F., Sumiyoshi, T., Tabata, H., Tamura, N., and Tsuchiya, Y.
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High Energy Physics - Experiment - Abstract
On-site underground background measurements were performed for the planned reactor-neutrino oscillation experiment KASKA at Kashiwazaki-Kariwa nuclear power station in Niigata, Japan. A small-diameter boring hole was excavated down to 70m underground level, and a detector unit for $\gamma$-ray and cosmic-muon measurements was placed at various depths to take data. The data were analyzed to obtain abundance of natural radioactive elements in the surrounding soil and rates of cosmic muons that penetrate the overburden. The results will be reflected in the design of the KASKA experiment., Comment: 9 pages, 7 figures, final version for publication. Table 1 and Fig.5 have changed
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- 2006
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8. Letter of Intent for KASKA: High Accuracy Neutrino Oscillation Measurements with anti-nu_es from Kashiwazaki-Kariwa Nuclear Power Station
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Aoki, M., Akiyama, K., Fukuda, Y., Fukui, A., Funaki, Y., Furuta, H., Hara, T., Haruna, T., Ishihara, N., Iwabuchi, T., Katsumata, M., Kawasaki, T., Kuze, M., Maeda, J., Matsubara, T., Matsumoto, T., Minakata, H., Miyata, H., Nagasaka, Y., Nakagawa, T., Nakajima, N., Nakano, H., Nitta, K., Nomachi, M., Sakai, K., Sakamoto, Y., Sakuma, K., Sasaki, M., Suekane, F., Sugiyama, H., Sumiyoshi, T., Tabata, H., Tamura, N., Tanimoto, M., Tsuchiya, Y., Watanabe, R., and Yasuda, O.
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High Energy Physics - Experiment - Abstract
One of the current most-demanded experiments in neutrino physics is to measure the last mixing angle theta_13. KASKA is an experiment to detect new type of reactor neutrino oscillation and to measure sin^2 2theta_13 accurately using the world's most powerful nuclear reactor complex; Kashiwazaki-Kariwa nuclear power station. KASKA utilizes near and far detectors of identical structure at nearly optimized baselines and underground depths to cancel most of the systematics and reduce backgrounds. The expected sensitivity is sin^2 2theta_13~0.015, which is 10 times better sensitivity than the current upper limit measured by CHOOZ reactor experiment. Extension of KASKA project has potential to accurately measure other anti-nu_e oscillation parameters. Intense and precisely known neutrino flux measured by the KASKA-theta_13 phase can be used to pin down sin^2 2theta_12 at a baseline ~50km and to measure Dm^2_13 for the first time at a baseline ~5km. This Letter of Intent describes physics motivation, detector system and expected performance of the KASKA experiment., Comment: 86 pages, 61 figures
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- 2006
9. Modified Hagedorn formula including temperature fluctuation - Estimation of temperatures at RHIC experiments -
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Biyajima, M., Mizoguchi, T., Nakajima, N., Suzuki, N., and Wilk, G.
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High Energy Physics - Phenomenology ,Nuclear Theory - Abstract
We have systematically estimated the possible temperatures obtained from an analysis of recent data on $p_t$ distributions observed at RHIC experiments. Using the fact that observed $p_t$ distributions cannot be described by the original Hagedorn formula in the whole range of transverse momenta (in particular above 6 GeV/c), we propose a modified Hagedorn formula including temperature fluctuation. We show that by using it we can fit $p_t$ distributions in the whole range and can estimate consistently the relevant temperatures, including their fluctuations., Comment: Some misprints corrected, references updated. To be published in Eur. Phys. J. C (2006)
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- 2006
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10. Status of the ITER remote experimentation centre
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Farthing, J., Ozeki, T., Clement Lorenzo, S., Nakajima, N., Sartori, F., De Tommasi, G., Manduchi, G., Barbato, P., Rigoni, A., Vitale, V., Giruzzi, G., Mattei, M., Mele, A., Imbeaux, F., Artaud, J.-F., Robin, F., Noe, J., Joffrin, E., Hynes, A., Hemming, O., Wheatley, M., O’hira, S., Ide, S., Ishii, Y., Matsukawa, M., Kubo, H., Totsuka, T., Urano, H., Naito, O., Hayashi, N., Miyata, Y., Namekawa, M., Wakasa, A., Oshima, T., Nakanishi, H., and Yamanaka, K.
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- 2018
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11. MDSplus remote data access over high latency connections
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Manduchi, G., Rigoni, A., De Tommasi, G., Sartori, F., Fredian, T.W., Stillerman, J.A., Barbato, P., Clement-Lorenzo, S., Nakajima, N., Nakanishi, H., Sugie, Y., and Ohtsu, H.
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- 2018
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12. Hadron Physics and Confinement Physics in Lattice QCD
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Suganuma, H., Amemiya, K., Ichie, H., Ishii, N., Matsufuru, H., Nakajima, N., Nemoto, Y., Oka, M., and Takahashi, T. T.
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High Energy Physics - Phenomenology - Abstract
We are aiming to construct Quark Hadron Physics and Confinement Physics based on QCD. Using SU(3)$_c$ lattice QCD, we are investigating the three-quark potential at T=0 and $T \ne 0$, mass spectra of positive and negative-parity baryons in the octet and the decuplet representations of the SU(3) flavor, glueball properties at T=0 and $T \ne 0$. We study also Confinement Physics using lattice QCD. In the maximally abelian (MA) gauge, the off-diagonal gluon amplitude is strongly suppressed, and then the off-diagonal gluon phase shows strong randomness, which leads to a large effective off-diagonal gluon mass, $M_{\rm off} \simeq 1.2 {\rm GeV}$. Due to the large off-diagonal gluon mass in the MA gauge, infrared QCD is abelianized like nonabelian Higgs theories. In the MA gauge, there appears a macroscopic network of the monopole world-line covering the whole system. From the monopole current, we extract the dual gluon field $B_\mu$, and examine the longitudinal magnetic screening. We obtain $m_B \simeq$ 0.5 GeV in the infrared region, which indicates the dual Higgs mechanism by monopole condensation. From infrared abelian dominance and infrared monopole condensation, low-energy QCD in the MA gauge is described with the dual Ginzburg-Landau (DGL) theory., Comment: Invited talk given at International Symposium on Hadrons and Nuclei, Seoul, Korea, 20-22 Feb 2001
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- 2004
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13. Lambda(1405) and Negative-Parity Baryons in Lattice QCD
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Nemoto, Y., Nakajima, N., Matsufuru, H., and Suganuma, H.
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High Energy Physics - Lattice ,High Energy Physics - Phenomenology - Abstract
We review briefly recent studies of the Lambda(1405) spectrum in Lattice QCD. Ordinary three-quark pictures of the Lambda(1405) in quenched Lattice QCD fail to reproduce the mass of the experimental value, which seems to support the penta-quark picture for the Lambda(1405) such as a Kbar-N molecule-like state. It is also noted that the present results suffer from relatively large systematic uncertainties coming from the finite volume effect, the chiral extrapolation and the quenching effect., Comment: 3 pages, 4 figures, talk given at the YITP workshop, ``Multi-quark Hadrons; Four, Five and More?", Kyoto, Japan, 17-19 February 2004
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- 2004
14. Negative-Parity Baryons in Quenched Anisotropic Lattice QCD
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Nemoto, Y., Nakajima, N., Matsufuru, H., and Suganuma, H.
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High Energy Physics - Lattice - Abstract
We study negative-parity baryon spectra in quenched anisotropic lattice QCD. The negative-parity baryons are measured as the parity partner of the ground-state baryons. In addition to the flavor octet and decuplet baryons, we pay much attention to the flavor-singlet negative-parity baryon as a three-quark state and compare it with the Lambda(1405) baryon. Numerical results of the flavor octet and decuplet negative-parity baryon masses are close to experimental values of lowest-lying negative-parity baryons, while the flavor-singlet baryon is much heavier than Lambda(1405). This indicates that the Lambda(1405) would be a multi-quark state such as the N-Kbar molecule rather than the flavor-singlet 3 quark state., Comment: 4 pages, 4 figs. Talk given at 16th International Conference on Particles and Nuclei (PANIC 02), Osaka, Japan, 30 Sep - 4 Oct 2002
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- 2003
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15. Negative-parity baryon spectra in quenched anisotropic lattice QCD
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Nemoto, Y., Nakajima, N., Matsufuru, H., and Suganuma, H.
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High Energy Physics - Lattice ,Nuclear Theory - Abstract
We investigate the negative-parity baryon spectra in quenched lattice QCD. We employ the anisotropic lattice with standard Wilson gauge and O(a) improved Wilson quark actions at three values of lattice spacings with renormalized anisotropy xi=a_sigma/a_tau=4, where a_sigma and a_tau are spatial and temporal lattice spacings, respectively. The negative-parity baryons are measured with the parity projection. In particular, we pay much attention to the lowest SU(3) flavor-singlet negative-parity baryon, which is assigned as the Lambda(1405) in the quark model. For the flavor octet and decuplet negative-parity baryons, the calculated masses are close to the experimental values of corresponding lowest-lying negative-parity baryons. In contrast, the flavor-singlet baryon is found to be about 1.7 GeV, which is much heavier than the Lambda(1405). Therefore, it is difficult to identify the Lambda(1405) to be the flavor-singlet three-quark state, which seems to support an interesting picture of the penta-quark (uds qbar q) state or the N-Kbar molecule for the Lambda(1405)., Comment: 14 pages, 15 eps figures, version to appear in Phys. Rev. D. Discussions on the quenching effects are mainly modified
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- 2003
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16. SU(3) lattice QCD study for octet and decuplet baryon spectra
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Nakajima, N., Matsufuru, H., Nemoto, Y., and Suganuma, H.
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High Energy Physics - Lattice - Abstract
The spectra of octet and decuplet baryons are studied using SU(3) lattice QCD at the quenched level. As an implementation to reduce the statistical fluctuation, we employ the anisotropic lattice with $O(a)$ improved quark action. In relation to $\Lambda(1405)$, we measure also the mass of the SU(3) flavor-singlet negative-parity baryon, which is described as a three quark state in the quenched lattice QCD, and its lowest mass is measured about 1.6 GeV. Since the experimentally observed negative-parity baryon $\Lambda(1405)$ is much lighter than 1.6 GeV, $\Lambda(1405)$ may include a large component of a $N \bar K$ bound state rather than the three quark state. The mass splitting between the octet and the decuplet baryons are also discussed in terms of the current quark mass., Comment: 8 pages, 3 figures, proceeding of "International Symposium on Hadron and Nuclei" at Yonsei Univ., Seoul, Korea 20-22 Feb. 2001
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- 2002
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17. Analyses of multiplicity distributions at Tevatron by a two-component stochastic model --- No leading particle effect in E735 Experiment ---
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Biyajima, M., Mizoguchi, T., Nakajima, N., Ohsawa, A., and Suzuki, N.
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High Energy Physics - Phenomenology - Abstract
Comparisons of multiplicity distributions at sqrt(s) = 1.8 TeV (E735 Experiment and CDF Collaboration) with our predictions by a two-component stochastic model have been made. This stochastic model is described by the pure-birth and Poisson processes. It is found that there are discrepancies among data at the CERN Sp-bar-pS collider and those at the Tevatron collider. The latter data by E735 do not contain the leading particle effect described by the Poisson process, providing that the view of the two-component stochastic model is correct. The data by CDF contain small leading particle effect. The reason is probably attributed to the correction made by E735, which is necessary to make the data of the full phase space from the restricted rapidity |eta|<3.25., Comment: 11 pages, 5 postscript figures, using elsart, epsfig
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- 2001
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18. Analyses of multiplicity distributions by means of the Modified Negative Binomial Distribution and its KNO scaling function
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Osada, T., Nakajima, N., Biyajima, M., and Suzuki, N.
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High Energy Physics - Phenomenology - Abstract
We analyze various data of multiplicity distributions by means of the Modified Negative Binomial Distribution (MNBD) and its KNO scaling function, since this MNBD explains the oscillating behavior of the cumulant moment observed in e^+e^- annihilations, h-h collisions and e-p collisions. In the present analyses, we find that the MNBD(discrete distributions) describes the data of charged particles in e^+e^- annihilations much better than the Negative Binomial Distribution (NBD). To investigate stochastic property of the MNBD, we derive the KNO scaling function from the discrete distribution by using a straightforward method and the Poisson transform. It is a new KNO function expressed by the Laguerre polynomials. In analyses of the data by using the KNO scaling function, we find that the MNBD describes the data better than the gamma function.Thus, it can be said that the MNBD is one of useful formulas as well as NBD., Comment: 12 pages, latex, 3 figures
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- 1998
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19. Simulation of Fusion Plasmas: Current Status and Future Direction
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Batchelor, DA, Beck, M, Becoulet, A, Budny, RV, Chang, CS, Diamond, PH, Dong, JQ, Fu, GY, Fukuyama, A, Hahm, TS, Keyes, DE, Kishimoto, Y, Klasky, S, Lao, LL, Li, K, Lin, Z, Ludaescher, B, Manickam, J, Nakajima, N, Ozeki, T, Podhorszki, N, Tang, WM, Vouk, MA, Waltz, RE, Wang, SJ, Wilson, HR, Xu, XQ, Yagi, M, and Zonca, F
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Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Published
- 2007
20. KNO scaling function of modified negative binomial distribution
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Nakajima, N., Biyajima, M., and Suzuki, N.
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High Energy Physics - Phenomenology - Abstract
We investigate the KNO scaling function of the modified negative binomial distribution (MNBD), because this MNBD can explain the oscillating behaviors of the cumulant moment observed in $e^+e^-$ annihilations and in hadronic collisions. By using a straightforward method and the Poisson transform we derive the KNO scaling function from the MNBD. The KNO form of experimental data in $e^{+}e^{-}$ collisions and hadronic collisions are analyzed by the KNO scaling function of the MNBD and that of the negative binomial distribution (NBD). The KNO scaling function of the MNBD describes the data as well as that of the NBD., Comment: 16 pages, Latex, 13 figures. To appear Phys. Rev. D
- Published
- 1996
21. Analysis of Cumulant Moments in High Energy Hadron-Hadron Collisions by Truncated Multiplicity Distributions
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Nakajima, N., Biyajima, M., and Suzuki, N.
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High Energy Physics - Phenomenology - Abstract
Oscillatory behavior of cumulant moments obtained from the experimental data in $pp$ collisions and $\bar{p}p$ collisions are analyzed by the modified negative binomial distribution (MNBD) and the negative binomial distribution (NBD). Both distributions well describe the cumulant moments obtained from the data. This fact shows sharp contrast to the result in $e^+e^-$ collisions, which is described by the the MNBD much better than by the NBD., Comment: 7 pages, Latex type, 7 figures
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- 1996
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22. New Analysis of Cumulant Moments in $e^+e^-$ Collisions by SLD Collaboration by Truncated Multiplicity Distributions
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Suzuki, N., Biyajima, M., and Nakajima, N.
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High Energy Physics - Phenomenology - Abstract
Newly reported normalized cumulant moments of charged particles in $e^+e^-$ collisions by the SLD collaboration are analyzed by the truncated modified negative binomial distribution (MNBD) and the negative binomial distribution (NBD). Calculated result by the MNBD describes the oscillatory behavior of the data much better than that by the NBD., Comment: 5 pages, Latex type, 2 figures
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- 1996
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23. COMMUNITY CO-CREATION IN LIVING HERITAGE CONSERVATION – FROM OBJECT-CENTERED TO PEOPLE-CENTERED PLANNING FOR THE ANCIENT CITY OF PINGYAO
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Sun, S. and Nakajima, N.
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Since the conservation of living heritage sites such as historic towns and traditional villages often involves the coordination of multiple interests, the modern socio-economic development of heritage sites and the dominant participatory nature of local heritage communities become the main conflicts in practice. Using a combination of literature research and field cases, this paper firstly compares the history of the theoretical conservation approach to living heritage and explains its core concepts and basic methods. Secondly, it analyses the application and effectiveness of the community co-creation model in living heritage sites using the case of the ancient city of Pingyao in Shanxi Province, China. It is hoped that this will provide a more comprehensive understanding of the current development and future direction of heritage conservation methods, and further consider how to reconcile the historical and daily values of heritage in the conservation process.
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- 2023
24. Recent technical progress on BA Program: DEMO activities and IFMIF/EVEDA
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Yamanishi, T., Asakura, N., Tobita, K., Ohira, S., Federici, G., Heidinger, R., Knaster, J., Clement, S., and Nakajima, N.
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- 2016
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25. P-198 An analysis of the size of micro pronucleus in 2.1 pronuclear zygotes by using time-lapse images
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Nakajima, N, primary, Kawano, H, additional, Takai, A, additional, Iimura, Y, additional, Mutsumi, A, additional, Azusa, O, additional, Chen, M, additional, and Yamashita, N, additional
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- 2022
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26. P-138 Transcriptomic signatures in trophectoderm and inner cell mass of human blastocysts with expected pregnancy rates
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Kai, Y, primary, Mei, H, additional, Kawano, H, additional, Nakajima, N, additional, Takai, A, additional, Kumon, M, additional, Inoue, A, additional, and Yamashita, N, additional
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- 2022
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27. Comprehensive epigenome characterization reveals diverse transcriptional regulation across human vascular endothelial cells
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Nakato, R., Wada, Y., Nakaki, R., Nagae, G., Katou, Y., Tsutsumi, S., Nakajima, N., Fukuhara, H., Iguchi, A., Kohro, T., Kanki, Y., Saito, Y., Kobayashi, M., Izumi-Taguchi, A., Osato, N., Tatsuno, K., Kamio, A., Hayashi-Takanaka, Y., Wada, H., Ohta, S., Aikawa, M., Nakajima, H., Nakamura, M., McGee, R. C., Heppner, K. W., Kawakatsu, T., Genno, M., Yanase, H., Kume, H., Senbonmatsu, T., Homma, Y., Nishimura, S., Mitsuyama, T., Aburatani, H., Kimura, Hiroshi, and Shirahige, K.
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lcsh:QH426-470 ,Angiogenesis ,Endothelial cells ,Computational biology ,Biology ,ChIP-seq ,Histone modifications ,Transcriptome ,Histones ,03 medical and health sciences ,Epigenome ,Epigenome database ,0302 clinical medicine ,Vasculogenesis ,Databases, Genetic ,Genetics ,Transcriptional regulation ,Humans ,Enhancer ,Hox gene ,Promoter Regions, Genetic ,Molecular Biology ,Large-scale analysis ,030304 developmental biology ,Epigenomics ,Homeodomain Proteins ,0303 health sciences ,Principal Component Analysis ,Research ,Phenotype ,Chromatin ,Cell biology ,Histone Code ,lcsh:Genetics ,Enhancer Elements, Genetic ,Gene Expression Regulation ,Homeobox ,030217 neurology & neurosurgery ,Genome-Wide Association Study - Abstract
BackgroundEndothelial cells (ECs) make up the innermost layer throughout the entire vasculature. Their phenotypes and physiological functions are initially regulated by developmental signals and extracellular stimuli. The underlying molecular mechanisms responsible for the diverse phenotypes of ECs from different organs are not well understood.ResultsTo characterize the transcriptomic and epigenomic landscape in the vascular system, we cataloged gene expression and active histone marks in nine types of human ECs (generating 148 genome-wide datasets) and carried out a comprehensive analysis with chromatin interaction data. We developed a robust procedure for comparative epigenome analysis that circumvents variations at the level of the individual and technical noise derived from sample preparation under various conditions. Through this approach, we identified 3765 EC-specific enhancers, some of which were associated with disease-associated genetic variations. We also identified various candidate marker genes for each EC type. We found that the nine EC types can be divided into two subgroups, corresponding to those with upper-body origins and lower-body origins, based on their epigenomic landscape. Epigenomic variations were highly correlated with gene expression patterns, but also provided unique information. Most of the deferentially expressed genes and enhancers were cooperatively enriched in more than one EC type, suggesting that the distinct combinations of multiple genes play key roles in the diverse phenotypes across EC types. Notably, many homeobox genes were differentially expressed across EC types, and their expression was correlated with the relative position of each organ in the body. This reflects the developmental origins of ECs and their roles in angiogenesis, vasculogenesis and wound healing.ConclusionsThis comprehensive analysis of epigenome characterization of EC types reveals diverse transcriptional regulation across human vascular systems. These datasets provide a valuable resource for understanding the vascular system and associated diseases.
- Published
- 2019
28. Marked difference between adults and children in Bordetella pertussis DNA load in nasopharyngeal swabs
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Nakamura, Y., Kamachi, K., Toyoizumi-Ajisaka, H., Otsuka, N., Saito, R., Tsuruoka, J., Katsuta, T., Nakajima, N., Okada, K., Kato, T., and Arakawa, Y.
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- 2011
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29. P–248 Statistical estimation for incidence of blastocyst trophectoderm vesicles (TVs) and efficacy of assisted hatching (AH)
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Nakajima, N, primary, Kawano, H, additional, Kai, Y, additional, Takai, A, additional, Abe, M, additional, Iimura, Y, additional, Cheng, M, additional, Yoshida, M, additional, and Yamashita, N, additional
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- 2021
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30. Dielectric response of BaTiO3 electronic states under AC fields via microsecond time-resolved X-ray absorption spectroscopy
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Kato, S., primary, Nakajima, N., additional, Yasui, S., additional, Yasuhara, S., additional, Fu, D., additional, Adachi, J., additional, Nitani, H., additional, Takeichi, Y., additional, and Anspoks, A., additional
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- 2021
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31. Research and development of fusion grid infrastructure based on atomic energy grid infrastructure (AEGIS)
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Suzuki, Y., Nakajima, K., Kushida, N., Kino, C., Aoyagi, T., Nakajima, N., Iba, K., Hayashi, N., Ozeki, T., Totsuka, T., Nakanishi, H., and Nagayama, Y.
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- 2008
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32. Analysis of ELM stability with extended MHD models in JET, JT-60U and future JT-60SA tokamak plasmas
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Aiba N., Pamela S., Honda M., Urano H., Giroud C., Delabie E., Frassinetti L., Lupelli I., Hayashi N., Huijsmans G. T. A., Litaudon X., Abduallev S., Abhangi M., Abreu P., Afzal M., Aggarwal K. M., Ahlgren T., Ahn J. H., Aho-Mantila L., Airila M., Albanese R., Aldred V., Alegre D., Alessi E., Aleynikov P., Alfier A., Alkseev A., Allinson M., Alper B., Alves E., Ambrosino G., Ambrosino R., Amicucci L., Amosov V., Sunden E. A., Angelone M., Anghel M., Angioni C., Appel L., Appelbee C., Arena P., Ariola M., Arnichand H., Arshad S., Ash A., Ashikawa N., Aslanyan V., Asunta O., Auriemma F., Austin Y., Avotina L., Axton M. D., Ayres C., Bacharis M., Baciero A., Baiao D., Bailey S., Baker A., Balboa I., Balden M., Balshaw N., Bament R., Banks J. W., Baranov Y. F., Barnard M. A., Barnes D., Barnes M., Barnsley R., Wiechec A. B., Orte L. B., Baruzzo M., Basiuk V., Bassan M., Bastow R., Batista A., Batistoni P., Baughan R., Bauvir B., Baylor L., Bazylev B., Beal J., Beaumont P. S., Beckers M., Beckett B., Becoulet A., Bekris N., Beldishevski M., Bell K., Belli F., Bellinger M., Belonohy E., Ayed N. B., Benterman N. A., Bergsaker H., Bernardo J., Bernert M., Berry M., Bertalot L., Besliu C., Beurskens M., Bieg B., Bielecki J., Biewer T., Bigi M., Bilkova P., Binda F., Bisoffi A., Bizarro J. P. S., Bjorkas C., Blackburn J., Blackman K., Blackman T. R., Blanchard P., Blatchford P., Bobkov V., Boboc A., Bodnar G., Bogar O., Bolshakova I., Bolzonella T., Bonanomi N., Bonelli F., Boom J., Booth J., Borba D., Borodin D., Borodkina I., Botrugno A., Bottereau C., Boulting P., Bourdelle C., Bowden M., Bower C., Bowman C., Boyce T., Boyd C., Boyer H. J., Bradshaw J. M. A., Braic V., Bravanec R., Breizman B., Bremond S., Brennan P. D., Breton S., Brett A., Brezinsek S., Bright M. D. J., Brix M., Broeckx W., Brombin M., Broslawski A., Brown D. P. D., Brown M., Bruno E., Bucalossi J., Buch J., Buchanan J., Buckley M. A., Budny R., Bufferand H., Bulman M., Bulmer N., Bunting P., Buratti P., Burckhart A., Buscarino A., Busse A., Butler N. K., Bykov I., Byrne J., Cahyna P., Calabro G., Calvo I., Camenen Y., Camp P., Campling D. C., Cane J., Cannas B., Capel A. J., Card P. J., Cardinali A., Carman P., Carr M., Carralero D., Carraro L., Carvalho B. B., Carvalho I., Carvalho P., Casson F. J., Castaldo C., Catarino N., Caumont J., Causa F., Cavazzana R., Cave-Ayland K., Cavinato M., Cecconello M., Ceccuzzi S., Cecil E., Cenedese A., Cesario R., Challis C. D., Chandler M., Chandra D., Chang C. S., Chankin A., Chapman I. T., Chapman S. C., Chernyshova M., Chitarin G., Ciraolo G., Ciric D., Citrin J., Clairet F., Clark E., Clark M., Clarkson R., Clatworthy D., Clements C., Cleverly M., Coad J. P., Coates P. A., Cobalt A., Coccorese V., Cocilovo V., Coda S., Coelho R., Coenen J. W., Coffey I., Colas L., Collins S., Conka D., Conroy S., Conway N., Coombs D., Cooper D., Cooper S. R., Corradino C., Corre Y., Corrigan G., Cortes S., Coster D., Couchman A. S., Cox M. P., Craciunescu T., Cramp S., Craven R., Crisanti F., Croci G., Croft D., Crombe K., Crowe R., Cruz N., Cseh G., Cufar A., Cullen A., Curuia M., Czarnecka A., Dabirikhah H., Dalgliesh P., Dalley S., Dankowski J., Darrow D., Davies O., Davis W., Day C., Day I. E., De Bock M., de Castro A., de la Cal E., De La Luna E., De Masi G., de Pablos J. L., De Temmerman G., De Tommasi G., De Vries P., Deakin K., Deane J., Degli Agostini F., Dejarnac R., den Harder N., Dendy R. O., Denis J., Denner P., Devaux S., Devynck P., Di Maio F., Di Siena A., Di Troia C., Dinca P., D'Inca R., Ding B., Dittmar T., Doerk H., Doerner R. P., Donne T., Dorling S. E., Dormido-Canto S., Doswon S., Douai D., Doyle P. T., Drenik A., Drewelow P., Drews P., Duckworth Ph., Dumont R., Dumortier P., Dunai D., Dunne M., Duran I., Durodie F., Dutta P., Duval B. P., Dux R., Dylst K., Dzysiuk N., Edappala P. V., Edmond J., Edwards A. M., Edwards J., Eich Th., Ekedahl A., El-Jorf R., Elsmore C. G., Enachescu M., Ericsson G., Eriksson F., Eriksson J., Eriksson L. G., Esposito B., Esquembri S., Esser H. G., Esteve D., Evans B., Evans G. E., Evison G., Ewart G. D., Fagan D., Faitsch M., Falie D., Fanni A., Fasoli A., Faustin J. M., Fawlk N., Fazendeiro L., Fedorczak N., Felton R. C., Fenton K., Fernades A., Fernandes H., Ferreira J., Fessey J. A., Fevrier O., Ficker O., Field A., Fietz S., Figueiredo A., Figueiredo J., Fil A., Finburg P., Firdaouss M., Fischer U., Fittill L., Fitzgerald M., Flammini D., Flanagan J., Fleming C., Flinders K., Fonnesu N., Fontdecaba J. M., Formisano A., Forsythe L., Fortuna L., Fortuna-Zalesna E., Fortune M., Foster S., Franke T., Franklin T., Frasca M., Freisinger M., Fresa R., Frigione D., Fuchs V., Fuller D., Futatani S., Fyvie J., Gal K., Galassi D., Galazka K., Galdon-Quiroga J., Gallagher J., Gallart D., Galvao R., Gao X., Gao Y., Garcia J., Garcia-Carrasco A., Garcia-Munoz M., Gardarein J. -L., Garzotti L., Gaudio P., Gauthier E., Gear D. F., Gee S. J., Geiger B., Gelfusa M., Gerasimov S., Gervasini G., Gethins M., Ghani Z., Ghate M., Gherendi M., Giacalone J. C., Giacomelli L., Gibson C. S., Giegerich T., Gil C., Gil L., Gilligan S., Gin D., Giovannozzi E., Girardo J. B., Giruzzi G., Gloggler S., Godwin J., Goff J., Gohil P., Goloborod'Ko V., Gomes R., Goncalves B., Goniche M., Goodliffe M., Goodyear A., Gorini G., Gosk M., Goulding R., Goussarov A., Gowland R., Graham B., Graham M. E., Graves J. P., Grazier N., Grazier P., Green N. R., Greuner H., Grierson B., Griph F. S., Grisolia C., Grist D., Groth M., Grove R., Grundy C. N., Grzonka J., Guard D., Guerard C., Guillemaut C., Guirlet R., Gurl C., Utoh H. H., Hackett L. J., Hacquin S., Hagar A., Hager R., Hakola A., Halitovs M., Hall S. J., Cook S. P. H., Hamlyn-Harris C., Hammond K., Harrington C., Harrison J., Harting D., Hasenbeck F., Hatano Y., Hatch D. R., Haupt T. D. V., Hawes J., Hawkes N. C., Hawkins J., Hawkins P., Haydon P. W., Hayter N., Hazel S., Heesterman P. J. L., Heinola K., Hellesen C., Hellsten T., Helou W., Hemming O. N., Hender T. C., Henderson M., Henderson S. S., Henriques R., Hepple D., Hermon G., Hertout P., Hidalgo C., Highcock E. G., Hill M., Hillairet J., Hillesheim J., Hillis D., Hizanidis K., Hjalmarsson A., Hobirk J., Hodille E., Hogben C. H. A., Hogeweij G. M. D., Hollingsworth A., Hollis S., Homfray D. A., Horacek J., Hornung G., Horton A. R., Horton L. D., Horvath L., Hotchin S. P., Hough M. R., Howarth P. J., Hubbard A., Huber A., Huber V., Huddleston T. M., Hughes M., Hunter C. L., Huynh P., Hynes A. M., Iglesias D., Imazawa N., Imbeaux F., Imrisek M., Incelli M., Innocente P., Irishkin M., Stanik I. I., Jachmich S., Jacobsen A. S., Jacquet P., Jansons J., Jardin A., Jarvinen A., Jaulmes F., Jednorog S., Jenkins I., Jeong C., Jepu I., Joffrin E., Johnson R., Johnson T., Johnston J., Joita L., Jones G., Jones T. T. C., Hoshino K. K., Kallenbach A., Kamiya K., Kaniewski J., Kantor A., Kappatou A., Karhunen J., Karkinsky D., Karnowska I., Kaufman M., Kaveney G., Kazakov Y., Kazantzidis V., Keeling D. L., Keenan T., Keep J., Kempenaars M., Kennedy C., Kenny D., Kent J., Kent O. N., Khilkevich E., Kim H. T., Kim H. S., Kinch A., King C., King D., King R. F., Kinna D. J., Kiptily V., Kirk A., Kirov K., Kirschner A., Kizane G., Klepper C., Klix A., Knight P., Knipe S. J., Knott S., Kobuchi T., Kochl F., Kocsis G., Kodeli I., Kogan L., Kogut D., Koivuranta S., Kominis Y., Koppen M., Kos B., Koskela T., Koslowski H. R., Koubiti M., Kovari M., Kowalska-Strzeciwilk E., Krasilnikov A., Krasilnikov V., Krawczyk N., Kresina M., Krieger K., Krivska A., Kruezi U., Ksiazek I., Kukushkin A., Kundu A., Kurki-Suonio T., Kwak S., Kwiatkowski R., Kwon O. J., Laguardia L., Lahtinen A., Laing A., Lam N., Lambertz H. T., Lane C., Lang P. T., Lanthaler S., Lapins J., Lasa A., Last J. R., Laszynska E., Lawless R., Lawson A., Lawson K. D., Lazaros A., Lazzaro E., Leddy J., Lee S., Lefebvre X., Leggate H. J., Lehmann J., Lehnen M., Leichtle D., Leichuer P., Leipold F., Lengar I., Lennholm M., Lerche E., Lescinskis A., Lesnoj S., Letellier E., Leyland M., Leysen W., Li L., Liang Y., Likonen J., Linke J., Linsmeier Ch., Lipschultz B., Liu G., Liu Y., Lo Schiavo V. P., Loarer T., Loarte A., Lobel R. C., Lomanowski B., Lomas P. J., Lonnroth J., Lopez J. M., Lopez-Razola J., Lorenzini R., Losada U., Lovell J. J., Loving A. B., Lowry C., Luce T., Lucock R. M. A., Lukin A., Luna C., Lungaroni M., Lungu C. P., Lungu M., Lunniss A., Lyssoivan A., Macdonald N., Macheta P., Maczewa K., Magesh B., Maget P., Maggi C., Maier H., Mailloux J., Makkonen T., Makwana R., Malaquias A., Malizia A., Manas P., Manning A., Manso M. E., Mantica P., Mantsinen M., Manzanares A., Maquet Ph., Marandet Y., Marcenko N., Marchetto C., Marchuk O., Marinelli M., Marinucci M., Markovic T., Marocco D., Marot L., Marren C. A., Marshal R., Martin A., Martin Y., de Aguilera A. M., Martinez F. J., Martin-Solis J. R., Martynova Y., Maruyama S., Masiello A., Maslov M., Matejcik S., Mattei M., Matthews G. F., Maviglia F., Mayer M., Mayoral M. L., May-Smith T., Mazon D., Mazzotta C., McAdams R., McCarthy P. J., McClements K. G., McCormack O., McCullen P. A., McDonald D., McIntosh S., McKean R., McKehon J., Meadows R. C., Meakins A., Medina F., Medland M., Medley S., Meigh S., Meigs A. G., Meisl G., Meitner S., Meneses L., Menmuir S., Mergia K., Merrigan I. R., Mertens Ph., Meshchaninov S., Messiaen A., Meyer H., Mianowski S., Michling R., Middleton-Gear D., Miettunen J., Militello F., Militello-Asp E., Miloshevsky G., Mink F., Minucci S., Miyoshi Y., Mlynar J., Molina D., Monakhov I., Moneti M., Mooney R., Moradi S., Mordijck S., Moreira L., Moreno R., Moro F., Morris A. W., Morris J., Moser L., Mosher S., Moulton D., Murari A., Muraro A., Murphy S., Asakura N. N., Na Y. S., Nabais F., Naish R., Nakano T., Nardon E., Naulin V., Nave M. F. F., Nedzelski I., Nemtsev G., Nespoli F., Neto A., Neu R., Neverov V. S., Newman M., Nicholls K. J., Nicolas T., Nielsen A. H., Nielsen P., Nilsson E., Nishijima D., Noble C., Nocente M., Nodwell D., Nordlund K., Nordman H., Nouailletas R., Nunes I., Oberkofler M., Odupitan T., Ogawa M. T., O'Gorman T., Okabayashi M., Olney R., Omolayo O., O'Mullane M., Ongena J., Orsitto F., Orszagh J., Oswuigwe B. I., Otin R., Owen A., Paccagnella R., Pace N., Pacella D., Packer L. W., Page A., Pajuste E., Palazzo S., Panja S., Papp P., Paprok R., Parail V., Park M., Diaz F. P., Parsons M., Pasqualotto R., Patel A., Pathak S., Paton D., Patten H., Pau A., Pawelec E., Soldan C. P., Peackoc A., Pearson I. J., Pehkonen S. P., Peluso E., Penot C., Pereira A., Pereira R., Puglia P. P. P., von Thun C. P., Peruzzo S., Peschanyi S., Peterka M., Petersson P., Petravich G., Petre A., Petrella N., Petrzilka V., Peysson Y., Pfefferle D., Philipps V., Pillon M., Pintsuk G., Piovesan P., dos Reis A. P., Piron L., Pironti A., Pisano F., Pitts R., Pizzo F., Plyusnin V., Pomaro N., Pompilian O. G., Pool P. J., Popovichev S., Porfiri M. T., Porosnicu C., Porton M., Possnert G., Potzel S., Powell T., Pozzi J., Prajapati V., Prakash R., Prestopino G., Price D., Price M., Price R., Prior P., Proudfoot R., Pucella G., Puglia P., Puiatti M. E., Pulley D., Purahoo K., Putterich Th., Rachlew E., Rack M., Ragona R., Rainford M. S. J., Rakha A., Ramogida G., Ranjan S., Rapson C. J., Rasmussen J. J., Rathod K., Ratta G., Ratynskaia S., Ravera G., Rayner C., Rebai M., Reece D., Reed A., Refy D., Regan B., Regana J., Reich M., Reid N., Reimold F., Reinhart M., Reinke M., Reiser D., Rendell D., Reux C., Cortes S. D. A. R., Reynolds S., Riccardo V., Richardson N., Riddle K., Rigamonti D., Rimini F. G., Risner J., Riva M., Roach C., Robins R. J., Robinson S. A., Robinson T., Robson D. W., Roccella R., Rodionov R., Rodrigues P., Rodriguez J., Rohde V., Romanelli F., Romanelli M., Romanelli S., Romazanov J., Rowe S., Rubel M., Rubinacci G., Rubino G., Ruchko L., Ruiz M., Ruset C., Rzadkiewicz J., Saarelma S., Sabot R., Safi E., Sagar P., Saibene G., Saint-Laurent F., Salewski M., Salmi A., Salmon R., Salzedas F., Samaddar D., Samm U., Sandiford D., Santa P., Santala M. I. K., Santos B., Santucci A., Sartori F., Sartori R., Sauter O., Scannell R., Schlummer T., Schmid K., Schmidt V., Schmuck S., Schneider M., Schopf K., Schworer D., Scott S. D., Sergienko G., Sertoli M., Shabbir A., Sharapov S. E., Shaw A., Shaw R., Sheikh H., Shepherd A., Shevelev A., Shumack A., Sias G., Sibbald M., Sieglin B., Silburn S., Silva A., Silva C., Simmons P. A., Simpson J., Simpson-Hutchinson J., Sinha A., Sipila S. K., Sips A. C. C., Siren P., Sirinelli A., Sjostrand H., Skiba M., Skilton R., Slabkowska K., Slade B., Smith N., Smith P. G., Smith R., Smith T. J., Smithies M., Snoj L., Soare S., Solano E. R., Somers A., Sommariva C., Sonato P., Sopplesa A., Sousa J., Sozzi C., Spagnolo S., Spelzini T., Spineanu F., Stables G., Stamatelatos I., Stamp M. F., Staniec P., Stankunas G., Stan-Sion C., Stead M. J., Stefanikova E., Stepanov I., Stephen A. V., Stephen M., Stevens A., Stevens B. D., Strachan J., Strand P., Strauss H. R., Strom P., Stubbs G., Studholme W., Subba F., Summers H. P., Svensson J., Swiderski L., Szabolics T., Szawlowski M., Szepesi G., Suzuki T. T., Tal B., Tala T., Talbot A. R., Talebzadeh S., Taliercio C., Tamain P., Tame C., Tang W., Tardocchi M., Taroni L., Taylor D., Taylor K. A., Tegnered D., Telesca G., Teplova N., Terranova D., Testa D., Tholerus E., Thomas J., Thomas J. D., Thomas P., Thompson A., Thompson C. -A., Thompson V. K., Thorne L., Thornton A., Thrysoe A. S., Tigwell P. A., Tipton N., Tiseanu I., Tojo H., Tokitani M., Tolias P., Tomes M., Tonner P., Towndrow M., Trimble P., Tripsky M., Tsalas M., Tsavalas P., Jun D. T., Turner I., Turner M. M., Turnyanskiy M., Tvalashvili G., Tyrrell S. G. J., Uccello A., Ul-Abidin Z., Uljanovs J., Ulyatt D., Uytdenhouwen I., Vadgama A. P., Valcarcel D., Valentinuzzi M., Valisa M., Olivares P. V., Valovic M., Van De Mortel M., Van Eester D., Van Renterghem W., van Rooij G. J., Varje J., Varoutis S., Vartanian S., Vasava K., Vasilopoulou T., Vega J., Verdoolaege G., Verhoeven R., Verona C., Rinati G. V., Veshchev E., Vianello N., Vicente J., Viezzer E., Villari S., Villone F., Vincenzi P., Vinyar I., Viola B., Vitins A., Vizvary Z., Vlad M., Voitsekhovitch I., Vondracek P., Vora N., Vu T., de Sa W. W. P., Wakeling B., Waldon C. W. F., Walkden N., Walker M., Walker R., Walsh M., Wang E., Wang N., Warder S., Warren R. J., Waterhouse J., Watkins N. W., Watts C., Wauters T., Weckmann A., Weiland J., Weisen H., Weiszflog M., Wellstood C., West A. T., Wheatley M. R., Whetham S., Whitehead A. M., Whitehead B. D., Widdowson A. M., Wiesen S., Wilkinson J., Williams J., Williams M., Wilson A. R., Wilson D. J., Wilson H. R., Wilson J., Wischmeier M., Withenshaw G., Withycombe A., Witts D. M., Wood D., Wood R., Woodley C., Wray S., Wright J., Wright J. C., Wu J., Wukitch S., Wynn A., Xu T., Yadikin D., Yanling W., Yao L., Yavorskij V., Yoo M. G., Young C., Young D., Young I. D., Young R., Zacks J., Zagorski R., Zaitsev F. S., Zanino R., Zarins A., Zastrow K. D., Zerbini M., Zhang W., Zhou Y., Zilli E., Zoita V., Zoletnik S., Zychor I., Arakawa H., Bando T., Bierwage A., Enoeda M., Fukumoto M., Hamamatsu K., Hanada M., Hatae T., Hayashi T., Higashijima S., Hirota M., Hiwatari R., Ichikawa M., Ide S., Ikeda Y., Imazawa R., Inoue S., Isayama A., Ishida S., Ishii Y., Itami K., Kamada Y., Aiba K. N., Kawano Y., Kizu K., Kawamura Y., Kobayashi T., Koide Y., Kojima A., Kubo H., Kurihara K., Kurita G., Masaki K., Matsukawa M., Matsunaga G., Matsuyama A., Miki K., Miya N., Miyata Y., Miyato N., Mori M., Moriyama S., Murakami H., Naito O., Nakamura M., Narita E., Natsume K., Oasa K., Ohtani Y., Ono M., Oyama N., Ozeki T., Sakamoto Y., Sakasai A., Sakurai S., Sano R., Sasao H., Shibama Y. K., Shibanuma K., Shimizu K., Shinohara K., Shirai H., Shiraishi J., Someya Y., Sukegawa A., Suzuki S., Takase H., Takechi M., Takenaga H., Tanigawa H., Tobita K., Toma M., Tsuchiya K., Tsuru D., Wakatsuki T., Yamoto S., Yagi M., Yoshida K., Yoshida M., Horiike H., Nobuta Y., Yamauchi Y., Idomura Y., Hatayama A., Hoshino K., Okano K., Masamune S., Sanpei A., Fukuyama A., Kado S., Kobayashi S., Konishi S., Kunugi T., Maekawa T., Minami T., Mizuuchi T., Murakami S., Nagasaki K., Shikama T., Watanabe F., Yamamoto S., Hanada K., Idei H., Katayama K., Nishikawa M., Inagaki S., Fujita T., Kajita S., Maeyama S., Ohno N., Yamazaki K., Watanabe T., Akiyama T., Isobe M., Kanno R., Kobayashi M., Masuzaki S., Miyazawa J., Morisaki T., Nakajima N., Nakamura Y., Nakata M., Narushima Y., Nishimura S., Ohdachi S., Oishi T., Osakabe M., Sagara A., Sakakibara S., Satake S., Suzuki Y., Takeiri Y., Tamura N., Tanaka K., Todo Y., Toi K., Yokoyama M., Watanabe K., Shibata Y., Fukuda T., Takizuka T., Ueda Y., Oya Y., Ejiri A., Inomoto M., Nishiura M., Ogawa Y., Takase Y., Kitajima S., Iio S., Matsuda S., Furukawa M., Ichimura M., Imai T., Nakashima Y., Sakamoto M., Sumida S., Barabaschi P., Cardella A., Clement-Lorenzo S., Coletti A., Davis S., Di Pietro E., Duglue D., Farthing J., Frello G., Hajnal N., Hurzlmeier H., Jokinen A., Kanapienyte D., Novello L., Peretti E., Phillips G., Rancsik P., Salpietro E., Scherber A., Spears B., Teuchner B., Tomarchio V., Verrecchia M., Wanner M., Zani L., Baulaigue O., Benoit F., Ciazynski D., Decool P., Dougnac H., Duchateau J. -L., Dumas N., Fejoz P., Geraud A., Gharafi S., Goncalves R., Gonde R., Gros G., Jestin F., Jiolat G., Lacroix B., Lamy S., Marechal J. -L., Nicollet S., Peluso B., Santagiustina A., Stephnie B., Torre A., Vagliani A., Vallet J. -C., Verger J. -M., Bonne F., Girard S., Hoa C., Lamaison V., Michel F., Poncet J. -M., Roussel P., Abdel Maksoud W., Ardellier F., Disset G., Donati A., Genini L., Mayri C., Molinie F., Nunio F., Ponsot P., Salanon B., Scola L., Vieillard L., Alonso J., Barrera G., Botija J., Cabrera Perez S., Fernandez P., Medrano M., Ramos F. J., Rincon E., Soleto A., Ferro A., Gaio E., Gasparini F., Maistrello A., Brolatti G., Coccoluto G., Corato V., Costa P., Cristofani C., Cucchiaro A., De Vellis A., Di Pace L., Frosi P., Ginoulhiac G., Lampasi A., Maffia G., Pizzuto A., Polli G. M., Rossi P., Starace F., Fiamozzi Zignani C., Zito P., Drotziger S., Fietz W., Heller R., Massimi A., Meyer I., Radloff D., Rita C., Urbach E., Collin B., Delrez C., Jamotton P., Massaut V., Sarkimaki K., Benkadda S., Artaud J. -F., Becoulet M., Falchetto G., Hoang T., Lotte P., Moreau P., Pegourie B., Travere J. -M., Bettini P., Canton A., Fassina A., Giudicotti L., Guo S. C., Marchiori G., Pigatto L., Vallar M., Xu X., Cismondi F., Barbato E., Mastrostefano S., de Baar M., Bruschi A., Farina D., Figini L., Granucci G., Moro A., Nowak S., Perelli-Cippo E., Platania P., Ricci D., Zuin M., Conway G., Dibon M., Fantz U., Happel T., Lauber P., Lackner K., Pautasso G., Schneider P., Kuhner G., Zocco A., Stankiewicz R., Stepniewski W., Sips G., Gleason Gonzalez C., Luo X., Scannapiego M., Bonifetto R., Decker J., Goodman T., Theiler C., Ayllon-Guerola J., Kovacsik A., Szepesi T., Kawashima H., Ogawa T., Sato M., Seki M., Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Universidad de Sevilla. RNM138: Física Nuclear Aplicada, Aiba, N, Pamela, S, Honda, M, Urano, H, Giroud, C, Delabie, E, Frassinetti, L, Lupelli, I, Hayashi, N, Huijsmans, G, Litaudon, X, Abduallev, S, Abhangi, M, Abreu, P, Afzal, M, Aggarwal, K, Ahlgren, T, Ahn, J, Aho-Mantila, L, Airila, M, Albanese, R, Aldred, V, Alegre, D, Alessi, E, Aleynikov, P, Alfier, A, Alkseev, A, Allinson, M, Alper, B, Alves, E, Ambrosino, G, Ambrosino, R, Amicucci, L, Amosov, V, Sunden, E, Angelone, M, Anghel, M, Angioni, C, Appel, L, Appelbee, C, Arena, P, Ariola, M, Arnichand, H, Arshad, S, Ash, A, Ashikawa, N, Aslanyan, V, Asunta, O, Auriemma, F, Austin, Y, Avotina, L, Axton, M, Ayres, C, Bacharis, M, Baciero, A, Baiao, D, Bailey, S, Baker, A, Balboa, I, Balden, M, Balshaw, N, Bament, R, Banks, J, Baranov, Y, Barnard, M, Barnes, D, Barnes, M, Barnsley, R, Wiechec, A, Orte, L, Baruzzo, M, Basiuk, V, Bassan, M, Bastow, R, Batista, A, Batistoni, P, Baughan, R, Bauvir, B, Baylor, L, Bazylev, B, Beal, J, Beaumont, P, Beckers, M, Beckett, B, Becoulet, A, Bekris, N, Beldishevski, M, Bell, K, Belli, F, Bellinger, M, Belonohy, E, Ayed, N, Benterman, N, Bergsaker, H, Bernardo, J, Bernert, M, Berry, M, Bertalot, L, Besliu, C, Beurskens, M, Bieg, B, Bielecki, J, Biewer, T, Bigi, M, Bilkova, P, Binda, F, Bisoffi, A, Bizarro, J, Bjorkas, C, Blackburn, J, Blackman, K, Blackman, T, Blanchard, P, Blatchford, P, Bobkov, V, Boboc, A, Bodnar, G, Bogar, O, Bolshakova, I, Bolzonella, T, Bonanomi, N, Bonelli, F, Boom, J, Booth, J, Borba, D, Borodin, D, Borodkina, I, Botrugno, A, Bottereau, C, Boulting, P, Bourdelle, C, Bowden, M, Bower, C, Bowman, C, Boyce, T, Boyd, C, Boyer, H, Bradshaw, J, Braic, V, Bravanec, R, Breizman, B, Bremond, S, Brennan, P, Breton, S, Brett, A, Brezinsek, S, Bright, M, Brix, M, Broeckx, W, Brombin, M, Broslawski, A, Brown, D, Brown, M, Bruno, E, Bucalossi, J, Buch, J, Buchanan, J, Buckley, M, Budny, R, Bufferand, H, Bulman, M, Bulmer, N, Bunting, P, Buratti, P, Burckhart, A, Buscarino, A, Busse, A, Butler, N, Bykov, I, Byrne, J, Cahyna, P, Calabro, G, Calvo, I, Camenen, Y, Camp, P, Campling, D, Cane, J, Cannas, B, Capel, A, Card, P, Cardinali, A, Carman, P, Carr, M, Carralero, D, Carraro, L, Carvalho, B, Carvalho, I, Carvalho, P, Casson, F, Castaldo, C, Catarino, N, Caumont, J, Causa, F, Cavazzana, R, Cave-Ayland, K, Cavinato, M, Cecconello, M, Ceccuzzi, S, Cecil, E, Cenedese, A, Cesario, R, Challis, C, Chandler, M, Chandra, D, Chang, C, Chankin, A, Chapman, I, Chapman, S, Chernyshova, M, Chitarin, G, Ciraolo, G, Ciric, D, Citrin, J, Clairet, F, Clark, E, Clark, M, Clarkson, R, Clatworthy, D, Clements, C, Cleverly, M, Coad, J, Coates, P, Cobalt, A, Coccorese, V, Cocilovo, V, Coda, S, Coelho, R, Coenen, J, Coffey, I, Colas, L, Collins, S, Conka, D, Conroy, S, Conway, N, Coombs, D, Cooper, D, Cooper, S, Corradino, C, Corre, Y, Corrigan, G, Cortes, S, Coster, D, Couchman, A, Cox, M, Craciunescu, T, Cramp, S, Craven, R, Crisanti, F, Croci, G, Croft, D, Crombe, K, Crowe, R, Cruz, N, Cseh, G, Cufar, A, Cullen, A, Curuia, M, Czarnecka, A, Dabirikhah, H, Dalgliesh, P, Dalley, S, Dankowski, J, Darrow, D, Davies, O, Davis, W, Day, C, Day, I, De Bock, M, de Castro, A, de la Cal, E, De La Luna, E, De Masi, G, de Pablos, J, De Temmerman, G, De Tommasi, G, De Vries, P, Deakin, K, Deane, J, Degli Agostini, F, Dejarnac, R, den Harder, N, Dendy, R, Denis, J, Denner, P, Devaux, S, Devynck, P, Di Maio, F, Di Siena, A, Di Troia, C, Dinca, P, D'Inca, R, Ding, B, Dittmar, T, Doerk, H, Doerner, R, Donne, T, Dorling, S, Dormido-Canto, S, Doswon, S, Douai, D, Doyle, P, Drenik, A, Drewelow, P, Drews, P, Duckworth, P, Dumont, R, Dumortier, P, Dunai, D, Dunne, M, Duran, I, Durodie, F, Dutta, P, Duval, B, Dux, R, Dylst, K, Dzysiuk, N, Edappala, P, Edmond, J, Edwards, A, Edwards, J, Eich, T, Ekedahl, A, El-Jorf, R, Elsmore, C, Enachescu, M, Ericsson, G, Eriksson, F, Eriksson, J, Eriksson, L, Esposito, B, Esquembri, S, Esser, H, Esteve, D, Evans, B, Evans, G, Evison, G, Ewart, G, Fagan, D, Faitsch, M, Falie, D, Fanni, A, Fasoli, A, Faustin, J, Fawlk, N, Fazendeiro, L, Fedorczak, N, Felton, R, Fenton, K, Fernades, A, Fernandes, H, Ferreira, J, Fessey, J, Fevrier, O, Ficker, O, Field, A, Fietz, S, Figueiredo, A, Figueiredo, J, Fil, A, Finburg, P, Firdaouss, M, Fischer, U, Fittill, L, Fitzgerald, M, Flammini, D, Flanagan, J, Fleming, C, Flinders, K, Fonnesu, N, Fontdecaba, J, Formisano, A, Forsythe, L, Fortuna, L, Fortuna-Zalesna, E, Fortune, M, Foster, S, Franke, T, Franklin, T, Frasca, M, Freisinger, M, Fresa, R, Frigione, D, Fuchs, V, Fuller, D, Futatani, S, Fyvie, J, Gal, K, Galassi, D, Galazka, K, Galdon-Quiroga, J, Gallagher, J, Gallart, D, Galvao, R, Gao, X, Gao, Y, Garcia, J, Garcia-Carrasco, A, Garcia-Munoz, M, Gardarein, J, Garzotti, L, Gaudio, P, Gauthier, E, Gear, D, Gee, S, Geiger, B, Gelfusa, M, Gerasimov, S, Gervasini, G, Gethins, M, Ghani, Z, Ghate, M, Gherendi, M, Giacalone, J, Giacomelli, L, Gibson, C, Giegerich, T, Gil, C, Gil, L, Gilligan, S, Gin, D, Giovannozzi, E, Girardo, J, Giruzzi, G, Gloggler, S, Godwin, J, Goff, J, Gohil, P, Goloborod'Ko, V, Gomes, R, Goncalves, B, Goniche, M, Goodliffe, M, Goodyear, A, Gorini, G, Gosk, M, Goulding, R, Goussarov, A, Gowland, R, Graham, B, Graham, M, Graves, J, Grazier, N, Grazier, P, Green, N, Greuner, H, Grierson, B, Griph, F, Grisolia, C, Grist, D, Groth, M, Grove, R, Grundy, C, Grzonka, J, Guard, D, Guerard, C, Guillemaut, C, Guirlet, R, Gurl, C, Utoh, H, Hackett, L, Hacquin, S, Hagar, A, Hager, R, Hakola, A, Halitovs, M, Hall, S, Cook, S, Hamlyn-Harris, C, Hammond, K, Harrington, C, Harrison, J, Harting, D, Hasenbeck, F, Hatano, Y, Hatch, D, Haupt, T, Hawes, J, Hawkes, N, Hawkins, J, Hawkins, P, Haydon, P, Hayter, N, Hazel, S, Heesterman, P, Heinola, K, Hellesen, C, Hellsten, T, Helou, W, Hemming, O, Hender, T, Henderson, M, Henderson, S, Henriques, R, Hepple, D, Hermon, G, Hertout, P, Hidalgo, C, Highcock, E, Hill, M, Hillairet, J, Hillesheim, J, Hillis, D, Hizanidis, K, Hjalmarsson, A, Hobirk, J, Hodille, E, Hogben, C, Hogeweij, G, Hollingsworth, A, Hollis, S, Homfray, D, Horacek, J, Hornung, G, Horton, A, Horton, L, Horvath, L, Hotchin, S, Hough, M, Howarth, P, Hubbard, A, Huber, A, Huber, V, Huddleston, T, Hughes, M, Hunter, C, Huynh, P, Hynes, A, Iglesias, D, Imazawa, N, Imbeaux, F, Imrisek, M, Incelli, M, Innocente, P, Irishkin, M, Stanik, I, Jachmich, S, Jacobsen, A, Jacquet, P, Jansons, J, Jardin, A, Jarvinen, A, Jaulmes, F, Jednorog, S, Jenkins, I, Jeong, C, Jepu, I, Joffrin, E, Johnson, R, Johnson, T, Johnston, J, Joita, L, Jones, G, Jones, T, Hoshino, K, Kallenbach, A, Kamiya, K, Kaniewski, J, Kantor, A, Kappatou, A, Karhunen, J, Karkinsky, D, Karnowska, I, Kaufman, M, Kaveney, G, Kazakov, Y, Kazantzidis, V, Keeling, D, Keenan, T, Keep, J, Kempenaars, M, Kennedy, C, Kenny, D, Kent, J, Kent, O, Khilkevich, E, Kim, H, Kinch, A, King, C, King, D, King, R, Kinna, D, Kiptily, V, Kirk, A, Kirov, K, Kirschner, A, Kizane, G, Klepper, C, Klix, A, Knight, P, Knipe, S, Knott, S, Kobuchi, T, Kochl, F, Kocsis, G, Kodeli, I, Kogan, L, Kogut, D, Koivuranta, S, Kominis, Y, Koppen, M, Kos, B, Koskela, T, Koslowski, H, Koubiti, M, Kovari, M, Kowalska-Strzeciwilk, E, Krasilnikov, A, Krasilnikov, V, Krawczyk, N, Kresina, M, Krieger, K, Krivska, A, Kruezi, U, Ksiazek, I, Kukushkin, A, Kundu, A, Kurki-Suonio, T, Kwak, S, Kwiatkowski, R, Kwon, O, Laguardia, L, Lahtinen, A, Laing, A, Lam, N, Lambertz, H, Lane, C, Lang, P, Lanthaler, S, Lapins, J, Lasa, A, Last, J, Laszynska, E, Lawless, R, Lawson, A, Lawson, K, Lazaros, A, Lazzaro, E, Leddy, J, Lee, S, Lefebvre, X, Leggate, H, Lehmann, J, Lehnen, M, Leichtle, D, Leichuer, P, Leipold, F, Lengar, I, Lennholm, M, Lerche, E, Lescinskis, A, Lesnoj, S, Letellier, E, Leyland, M, Leysen, W, Li, L, Liang, Y, Likonen, J, Linke, J, Linsmeier, C, Lipschultz, B, Liu, G, Liu, Y, Lo Schiavo, V, Loarer, T, Loarte, A, Lobel, R, Lomanowski, B, Lomas, P, Lonnroth, J, Lopez, J, Lopez-Razola, J, Lorenzini, R, Losada, U, Lovell, J, Loving, A, Lowry, C, Luce, T, Lucock, R, Lukin, A, Luna, C, Lungaroni, M, Lungu, C, Lungu, M, Lunniss, A, Lyssoivan, A, Macdonald, N, Macheta, P, Maczewa, K, Magesh, B, Maget, P, Maggi, C, Maier, H, Mailloux, J, Makkonen, T, Makwana, R, Malaquias, A, Malizia, A, Manas, P, Manning, A, Manso, M, Mantica, P, Mantsinen, M, Manzanares, A, Maquet, P, Marandet, Y, Marcenko, N, Marchetto, C, Marchuk, O, Marinelli, M, Marinucci, M, Markovic, T, Marocco, D, Marot, L, Marren, C, Marshal, R, Martin, A, Martin, Y, de Aguilera, A, Martinez, F, Martin-Solis, J, Martynova, Y, Maruyama, S, Masiello, A, Maslov, M, Matejcik, S, Mattei, M, Matthews, G, Maviglia, F, Mayer, M, Mayoral, M, May-Smith, T, Mazon, D, Mazzotta, C, Mcadams, R, Mccarthy, P, Mcclements, K, Mccormack, O, Mccullen, P, Mcdonald, D, Mcintosh, S, Mckean, R, Mckehon, J, Meadows, R, Meakins, A, Medina, F, Medland, M, Medley, S, Meigh, S, Meigs, A, Meisl, G, Meitner, S, Meneses, L, Menmuir, S, Mergia, K, Merrigan, I, Mertens, P, Meshchaninov, S, Messiaen, A, Meyer, H, Mianowski, S, Michling, R, Middleton-Gear, D, Miettunen, J, Militello, F, Militello-Asp, E, Miloshevsky, G, Mink, F, Minucci, S, Miyoshi, Y, Mlynar, J, Molina, D, Monakhov, I, Moneti, M, Mooney, R, Moradi, S, Mordijck, S, Moreira, L, Moreno, R, Moro, F, Morris, A, Morris, J, Moser, L, Mosher, S, Moulton, D, Murari, A, Muraro, A, Murphy, S, Asakura, N, Na, Y, Nabais, F, Naish, R, Nakano, T, Nardon, E, Naulin, V, Nave, M, Nedzelski, I, Nemtsev, G, Nespoli, F, Neto, A, Neu, R, Neverov, V, Newman, M, Nicholls, K, Nicolas, T, Nielsen, A, Nielsen, P, Nilsson, E, Nishijima, D, Noble, C, Nocente, M, Nodwell, D, Nordlund, K, Nordman, H, Nouailletas, R, Nunes, I, Oberkofler, M, Odupitan, T, Ogawa, M, O'Gorman, T, Okabayashi, M, Olney, R, Omolayo, O, O'Mullane, M, Ongena, J, Orsitto, F, Orszagh, J, Oswuigwe, B, Otin, R, Owen, A, Paccagnella, R, Pace, N, Pacella, D, Packer, L, Page, A, Pajuste, E, Palazzo, S, Panja, S, Papp, P, Paprok, R, Parail, V, Park, M, Diaz, F, Parsons, M, Pasqualotto, R, Patel, A, Pathak, S, Paton, D, Patten, H, Pau, A, Pawelec, E, Soldan, C, Peackoc, A, Pearson, I, Pehkonen, S, Peluso, E, Penot, C, Pereira, A, Pereira, R, Puglia, P, von Thun, C, Peruzzo, S, Peschanyi, S, Peterka, M, Petersson, P, Petravich, G, Petre, A, Petrella, N, Petrzilka, V, Peysson, Y, Pfefferle, D, Philipps, V, Pillon, M, Pintsuk, G, Piovesan, P, dos Reis, A, Piron, L, Pironti, A, Pisano, F, Pitts, R, Pizzo, F, Plyusnin, V, Pomaro, N, Pompilian, O, Pool, P, Popovichev, S, Porfiri, M, Porosnicu, C, Porton, M, Possnert, G, Potzel, S, Powell, T, Pozzi, J, Prajapati, V, Prakash, R, Prestopino, G, Price, D, Price, M, Price, R, Prior, P, Proudfoot, R, Pucella, G, Puiatti, M, Pulley, D, Purahoo, K, Putterich, T, Rachlew, E, Rack, M, Ragona, R, Rainford, M, Rakha, A, Ramogida, G, Ranjan, S, Rapson, C, Rasmussen, J, Rathod, K, Ratta, G, Ratynskaia, S, Ravera, G, Rayner, C, Rebai, M, Reece, D, Reed, A, Refy, D, Regan, B, Regana, J, Reich, M, Reid, N, Reimold, F, Reinhart, M, Reinke, M, Reiser, D, Rendell, D, Reux, C, Reynolds, S, Riccardo, V, Richardson, N, Riddle, K, Rigamonti, D, Rimini, F, Risner, J, Riva, M, Roach, C, Robins, R, Robinson, S, Robinson, T, Robson, D, Roccella, R, Rodionov, R, Rodrigues, P, Rodriguez, J, Rohde, V, Romanelli, F, Romanelli, M, Romanelli, S, Romazanov, J, Rowe, S, Rubel, M, Rubinacci, G, Rubino, G, Ruchko, L, Ruiz, M, Ruset, C, Rzadkiewicz, J, Saarelma, S, Sabot, R, Safi, E, Sagar, P, Saibene, G, Saint-Laurent, F, Salewski, M, Salmi, A, Salmon, R, Salzedas, F, Samaddar, D, Samm, U, Sandiford, D, Santa, P, Santala, M, Santos, B, Santucci, A, Sartori, F, Sartori, R, Sauter, O, Scannell, R, Schlummer, T, Schmid, K, Schmidt, V, Schmuck, S, Schneider, M, Schopf, K, Schworer, D, Scott, S, Sergienko, G, Sertoli, M, Shabbir, A, Sharapov, S, Shaw, A, Shaw, R, Sheikh, H, Shepherd, A, Shevelev, A, Shumack, A, Sias, G, Sibbald, M, Sieglin, B, Silburn, S, Silva, A, Silva, C, Simmons, P, Simpson, J, 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Tiseanu, I, Tojo, H, Tokitani, M, Tolias, P, Tomes, M, Tonner, P, Towndrow, M, Trimble, P, Tripsky, M, Tsalas, M, Tsavalas, P, Jun, D, Turner, I, Turner, M, Turnyanskiy, M, Tvalashvili, G, Tyrrell, S, Uccello, A, Ul-Abidin, Z, Uljanovs, J, Ulyatt, D, Uytdenhouwen, I, Vadgama, A, Valcarcel, D, Valentinuzzi, M, Valisa, M, Olivares, P, Valovic, M, Van De Mortel, M, Van Eester, D, Van Renterghem, W, van Rooij, G, Varje, J, Varoutis, S, Vartanian, S, Vasava, K, Vasilopoulou, T, Vega, J, Verdoolaege, G, Verhoeven, R, Verona, C, Rinati, G, Veshchev, E, Vianello, N, Vicente, J, Viezzer, E, Villari, S, Villone, F, Vincenzi, P, Vinyar, I, Viola, B, Vitins, A, Vizvary, Z, Vlad, M, Voitsekhovitch, I, Vondracek, P, Vora, N, Vu, T, de Sa, W, Wakeling, B, Waldon, C, Walkden, N, Walker, M, Walker, R, Walsh, M, Wang, E, Wang, N, Warder, S, Warren, R, Waterhouse, J, Watkins, N, Watts, C, Wauters, T, Weckmann, A, Weiland, J, Weisen, H, Weiszflog, M, Wellstood, C, West, A, Wheatley, M, Whetham, S, Whitehead, A, Whitehead, B, Widdowson, A, Wiesen, S, Wilkinson, J, Williams, J, Williams, M, Wilson, A, Wilson, D, Wilson, H, Wilson, J, Wischmeier, M, Withenshaw, G, Withycombe, A, Witts, D, Wood, D, Wood, R, Woodley, C, Wray, S, Wright, J, Wu, J, Wukitch, S, Wynn, A, Xu, T, Yadikin, D, Yanling, W, Yao, L, Yavorskij, V, Yoo, M, Young, C, Young, D, Young, I, Young, R, Zacks, J, Zagorski, R, Zaitsev, F, Zanino, R, Zarins, A, Zastrow, K, Zerbini, M, Zhang, W, Zhou, Y, Zilli, E, Zoita, V, Zoletnik, S, Zychor, I, Arakawa, H, Bando, T, Bierwage, A, Enoeda, M, Fukumoto, M, Hamamatsu, K, Hanada, M, Hatae, T, Hayashi, T, Higashijima, S, Hirota, M, Hiwatari, R, Ichikawa, M, Ide, S, Ikeda, Y, Imazawa, R, Inoue, S, Isayama, A, Ishida, S, Ishii, Y, Itami, K, Kamada, Y, Aiba, K, Kawano, Y, Kizu, K, Kawamura, Y, Kobayashi, T, Koide, Y, Kojima, A, Kubo, H, Kurihara, K, Kurita, G, Masaki, K, Matsukawa, M, Matsunaga, G, Matsuyama, A, Miki, K, Miya, N, Miyata, Y, Miyato, N, Mori, M, Moriyama, S, 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J., Rathod, K., Ratta, G., Ratynskaia, S., Ravera, G., Rayner, C., Rebai, M., Reece, D., Reed, A., Refy, D., Regan, B., Regana, J., Reich, M., Reid, N., Reimold, F., Reinhart, M., Reinke, M., Reiser, D., Rendell, D., Reux, C., Cortes, S. D. A. R., Reynolds, S., Riccardo, V., Richardson, N., Riddle, K., Rigamonti, D., Rimini, F. G., Risner, J., Riva, M., Roach, C., Robins, R. J., Robinson, S. A., Robinson, T., Robson, D. W., Roccella, R., Rodionov, R., Rodrigues, P., Rodriguez, J., Rohde, V., Romanelli, F., Romanelli, M., Romanelli, S., Romazanov, J., Rowe, S., Rubel, M., Rubinacci, G., Rubino, G., Ruchko, L., Ruiz, M., Ruset, C., Rzadkiewicz, J., Saarelma, S., Sabot, R., Safi, E., Sagar, P., Saibene, G., Saint-Laurent, F., Salewski, M., Salmi, A., Salmon, R., Salzedas, F., Samaddar, D., Samm, U., Sandiford, D., Santa, P., Santala, M. I. K., Santos, B., Santucci, A., Sartori, F., Sartori, R., Sauter, O., Scannell, R., Schlummer, T., Schmid, K., Schmidt, V., Schmuck, S., Schneider, M., Schopf, K., Schworer, D., Scott, S. D., Sergienko, G., Sertoli, M., Shabbir, A., Sharapov, S. E., Shaw, A., Shaw, R., Sheikh, H., Shepherd, A., Shevelev, A., Shumack, A., Sias, G., Sibbald, M., Sieglin, B., Silburn, S., Silva, A., Silva, C., Simmons, P. A., Simpson, J., Simpson-Hutchinson, J., Sinha, A., Sipila, S. K., Sips, A. C. C., Siren, P., Sirinelli, A., Sjostrand, H., Skiba, M., Skilton, R., Slabkowska, K., Slade, B., Smith, N., Smith, P. G., Smith, R., Smith, T. J., Smithies, M., Snoj, L., Soare, S., Solano, E. R., Somers, A., Sommariva, C., Sonato, P., Sopplesa, A., Sousa, J., Sozzi, C., Spagnolo, S., Spelzini, T., Spineanu, F., Stables, G., Stamatelatos, I., Stamp, M. F., Staniec, P., Stankunas, G., Stan-Sion, C., Stead, M. J., Stefanikova, E., Stepanov, I., Stephen, A. V., Stephen, M., Stevens, A., Stevens, B. D., Strachan, J., Strand, P., Strauss, H. R., Strom, P., Stubbs, G., Studholme, W., Subba, F., Summers, H. P., Svensson, J., Swiderski, L., Szabolics, T., Szawlowski, M., Szepesi, G., Suzuki, T. T., Tal, B., Tala, T., Talbot, A. R., Talebzadeh, S., Taliercio, C., Tamain, P., Tame, C., Tang, W., Tardocchi, M., Taroni, L., Taylor, D., Taylor, K. A., Tegnered, D., Telesca, G., Teplova, N., Terranova, D., Testa, D., Tholerus, E., Thomas, J., Thomas, J. D., Thomas, P., Thompson, A., Thompson, C. -A., Thompson, V. K., Thorne, L., Thornton, A., Thrysoe, A. S., Tigwell, P. A., Tipton, N., Tiseanu, I., Tojo, H., Tokitani, M., Tolias, P., Tomes, M., Tonner, P., Towndrow, M., Trimble, P., Tripsky, M., Tsalas, M., Tsavalas, P., Jun, D. T., Turner, I., Turner, M. M., Turnyanskiy, M., Tvalashvili, G., Tyrrell, S. G. J., Uccello, A., Ul-Abidin, Z., Uljanovs, J., Ulyatt, D., Uytdenhouwen, I., Vadgama, A. P., Valcarcel, D., Valentinuzzi, M., Valisa, M., Olivares, P. V., Valovic, M., Van De Mortel, M., Van Eester, D., Van Renterghem, W., van Rooij, G. J., Varje, J., Varoutis, S., Vartanian, S., Vasava, K., Vasilopoulou, T., Vega, J., Verdoolaege, G., Verhoeven, R., Verona, C., Rinati, G. V., Veshchev, E., Vianello, N., Vicente, J., Viezzer, E., Villari, S., Villone, F., Vincenzi, P., Vinyar, I., Viola, B., Vitins, A., Vizvary, Z., Vlad, M., Voitsekhovitch, I., Vondracek, P., Vora, N., Vu, T., de Sa, W. W. P., Wakeling, B., Waldon, C. W. F., Walkden, N., Walker, M., Walker, R., Walsh, M., Wang, E., Wang, N., Warder, S., Warren, R. J., Waterhouse, J., Watkins, N. W., Watts, C., Wauters, T., Weckmann, A., Weiland, J., Weisen, H., Weiszflog, M., Wellstood, C., West, A. T., Wheatley, M. R., Whetham, S., Whitehead, A. M., Whitehead, B. D., Widdowson, A. M., Wiesen, S., Wilkinson, J., Williams, J., Williams, M., Wilson, A. R., Wilson, D. J., Wilson, H. R., Wilson, J., Wischmeier, M., Withenshaw, G., Withycombe, A., Witts, D. M., Wood, D., Wood, R., Woodley, C., Wray, S., Wright, J., Wright, J. C., Wu, J., Wukitch, S., Wynn, A., Xu, T., Yadikin, D., Yanling, W., Yao, L., Yavorskij, V., Yoo, M. G., Young, C., Young, D., Young, I. D., Young, R., Zacks, J., Zagorski, R., Zaitsev, F. S., Zanino, R., Zarins, A., Zastrow, K. D., Zerbini, M., Zhang, W., Zhou, Y., Zilli, E., Zoita, V., Zoletnik, S., Zychor, I., Arakawa, H., Bando, T., Bierwage, A., Enoeda, M., Fukumoto, M., Hamamatsu, K., Hanada, M., Hatae, T., Hayashi, T., Higashijima, S., Hirota, M., Hiwatari, R., Ichikawa, M., Ide, S., Ikeda, Y., Imazawa, R., Inoue, S., Isayama, A., Ishida, S., Ishii, Y., Itami, K., Kamada, Y., Aiba, K. N., Kawano, Y., Kizu, K., Kawamura, Y., Kobayashi, T., Koide, Y., Kojima, A., Kubo, H., Kurihara, K., Kurita, G., Masaki, K., Matsukawa, M., Matsunaga, G., Matsuyama, A., Miki, K., Miya, N., Miyata, Y., Miyato, N., Mori, M., Moriyama, S., Murakami, H., Naito, O., Nakamura, M., Narita, E., Natsume, K., Oasa, K., Ohtani, Y., Ono, M., Oyama, N., Ozeki, T., Sakamoto, Y., Sakasai, A., Sakurai, S., Sano, R., Sasao, H., Shibama, Y. K., Shibanuma, K., Shimizu, K., Shinohara, K., Shirai, H., Shiraishi, J., Someya, Y., Sukegawa, A., Suzuki, S., Takase, H., Takechi, M., Takenaga, H., Tanigawa, H., Tobita, K., Toma, M., Tsuchiya, K., Tsuru, D., Wakatsuki, T., Yamoto, S., Yagi, M., Yoshida, K., Yoshida, M., Horiike, H., Nobuta, Y., Yamauchi, Y., Idomura, Y., Hatayama, A., Hoshino, K., Okano, K., Masamune, S., Sanpei, A., Fukuyama, A., Kado, S., Kobayashi, S., Konishi, S., Kunugi, T., Maekawa, T., Minami, T., Mizuuchi, T., Murakami, S., Nagasaki, K., Shikama, T., Watanabe, F., Yamamoto, S., Hanada, K., Idei, H., Katayama, K., Nishikawa, M., Inagaki, S., Fujita, T., Kajita, S., Maeyama, S., Ohno, N., Yamazaki, K., Watanabe, T., Akiyama, T., Isobe, M., Kanno, R., Kobayashi, M., Masuzaki, S., Miyazawa, J., Morisaki, T., Nakajima, N., Nakamura, Y., Nakata, M., Narushima, Y., Nishimura, S., Ohdachi, S., Oishi, T., Osakabe, M., Sagara, A., Sakakibara, S., Satake, S., Suzuki, Y., Takeiri, Y., Tamura, N., Tanaka, K., Todo, Y., Toi, K., Yokoyama, M., Watanabe, K., Shibata, Y., Fukuda, T., Takizuka, T., Ueda, Y., Oya, Y., Ejiri, A., Inomoto, M., Nishiura, M., Ogawa, Y., Takase, Y., Kitajima, S., Iio, S., Matsuda, S., Furukawa, M., Ichimura, M., Imai, T., Nakashima, Y., Sakamoto, M., Sumida, S., Barabaschi, P., Cardella, A., Clement-Lorenzo, S., Coletti, A., Davis, S., Di Pietro, E., Duglue, D., Farthing, J., Frello, G., Hajnal, N., Hurzlmeier, H., Jokinen, A., Kanapienyte, D., Novello, L., Peretti, E., Phillips, G., Rancsik, P., Salpietro, E., Scherber, A., Spears, B., Teuchner, B., Tomarchio, V., Verrecchia, M., Wanner, M., Zani, L., Baulaigue, O., Benoit, F., Ciazynski, D., Decool, P., Dougnac, H., Duchateau, J. -L., Dumas, N., Fejoz, P., Geraud, A., Gharafi, S., Goncalves, R., Gonde, R., Gros, G., Jestin, F., Jiolat, G., Lacroix, B., Lamy, S., Marechal, J. -L., Nicollet, S., Peluso, B., Santagiustina, A., Stephnie, B., Torre, A., Vagliani, A., Vallet, J. -C., Verger, J. -M., Bonne, F., Girard, S., Hoa, C., Lamaison, V., Michel, F., Poncet, J. -M., Roussel, P., Abdel Maksoud, W., Ardellier, F., Disset, G., Donati, A., Genini, L., Mayri, C., Molinie, F., Nunio, F., Ponsot, P., Salanon, B., Scola, L., Vieillard, L., Alonso, J., Barrera, G., Botija, J., Cabrera Perez, S., Fernandez, P., Medrano, M., Ramos, F. J., Rincon, E., Soleto, A., Ferro, A., Gaio, E., Gasparini, F., Maistrello, A., Brolatti, G., Coccoluto, G., Corato, V., Costa, P., Cristofani, C., Cucchiaro, A., De Vellis, A., Di Pace, L., Frosi, P., Ginoulhiac, G., Lampasi, A., Maffia, G., Pizzuto, A., Polli, G. M., Rossi, P., Starace, F., Fiamozzi Zignani, C., Zito, P., Drotziger, S., Fietz, W., Heller, R., Massimi, A., Meyer, I., Radloff, D., Rita, C., Urbach, E., Collin, B., Delrez, C., Jamotton, P., Massaut, V., Sarkimaki, K., Benkadda, S., Artaud, J. -F., Becoulet, M., Falchetto, G., Hoang, T., Lotte, P., Moreau, P., Pegourie, B., Travere, J. -M., Bettini, P., Canton, A., Fassina, A., Giudicotti, L., Guo, S. C., Marchiori, G., Pigatto, L., Vallar, M., Xu, X., Cismondi, F., Barbato, E., Mastrostefano, S., de Baar, M., Bruschi, A., Farina, D., Figini, L., Granucci, G., Moro, A., Nowak, S., Perelli-Cippo, E., Platania, P., Ricci, D., Zuin, M., Conway, G., Dibon, M., Fantz, U., Happel, T., Lauber, P., Lackner, K., Pautasso, G., Schneider, P., Kuhner, G., Zocco, A., Stankiewicz, R., Stepniewski, W., Sips, G., Gleason Gonzalez, C., Luo, X., Scannapiego, M., Bonifetto, R., Decker, J., Goodman, T., Theiler, C., Ayllon-Guerola, J., Kovacsik, A., Szepesi, T., Kawashima, H., Ogawa, T., Sato, M., and Seki, M.
- Subjects
Tokamak ,Rotation ,ELM ,extended MHD model ,H-mode ,rotation ,tokamaks ,01 natural sciences ,Stability (probability) ,010305 fluids & plasmas ,law.invention ,law ,Physics::Plasma Physics ,0103 physical sciences ,Extended MHD model ,010306 general physics ,tokamak ,Physics ,Jet (fluid) ,Plasma ,BOOTSTRAP CURRENT ,SIMULATION ,Condensed Matter Physics ,Computational physics ,Settore ING-IND/20 - Misure e Strumentazione Nucleari ,Nuclear Energy and Engineering ,Physics::Space Physics ,Magnetohydrodynamics ,Tokamaks - Abstract
The stability with respect to a peeling–ballooning mode (PBM) was investigated numerically with extended MHD simulation codes in JET, JT-60U and future JT-60SA plasmas. The MINERVA-DI code was used to analyze the linear stability, including the effects of rotation and ion diamagnetic drift ( *w i), in JET-ILW and JT-60SA plasmas, and the JOREK code was used to simulate nonlinear dynamics with rotation, viscosity and resistivity in JT-60U plasmas. It was validated quantitatively that the ELM trigger condition in JET-ILW plasmas can be reasonably explained by taking into account both the rotation and *w i effects in the numerical analysis. When deuterium poloidal rotation is evaluated based on neoclassical theory, an increase in the effective charge of plasma destabilizes the PBM because of an acceleration of rotation and a decrease in *w i. The difference in the amount of ELM energy loss in JT-60U plasmas rotating in opposite directions was reproduced qualitatively with JOREK. By comparing the ELM affected areas with linear eigenfunctions, it was confirmed that the difference in the linear stability property, due not to the rotation direction but to the plasma density profile, is thought to be responsible for changing the ELM energy loss just after the ELM crash. A predictive study to determine the pedestal profiles in JT-60SA was performed by updating the EPED1 model to include the rotation and *w i effects in the PBM stability analysis. It was shown that the plasma rotation predicted with the neoclassical toroidal viscosity degrades the pedestal performance by about 10% by destabilizing the PBM, but the pressure pedestal height will be high enough to achieve the target parameters required for the ITER-like shape inductive scenario in JT-60SA. JSPS KAKENHI 15K06656 EURATOM 633053
- Published
- 2018
33. P38.05 Clinical, Genetic, Radiological, and Pathological Characteristics of Cribriform Adenocarcinoma of the Lung
- Author
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Yoshizawa, A., primary, Nakajima, N., additional, and Kubo, T., additional
- Published
- 2021
- Full Text
- View/download PDF
34. Systematic studies of small scintillators for new sampling calorimeter
- Author
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Jacosalem, E. P., Iba, S., Nakajima, N., Ono, H., Sanchez, A. L. C., Bacala, A. M., Miyata, H., and GLD Calorimeter Group
- Published
- 2007
- Full Text
- View/download PDF
35. Peptide Free Energy Landscapes Calibrated by Molecular Orbital Calculations
- Author
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Ono, S., Kuroda, M., Higo, J., Kamiya, N., Nakajima, N., and Nakamura, H.
- Published
- 2002
- Full Text
- View/download PDF
36. Cell based design methodology for BDD SFQ logic circuits: a high speed test and feasibility for large scale circuit applications
- Author
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Yoshikawa, N., Yoda, K., Hoshina, H., Kawasaki, K., Fujiwara, K., Matsuzaki, F., and Nakajima, N.
- Subjects
Superconductors -- Research ,Superconductive devices -- Research ,Logic design -- Research ,Business ,Electronics ,Electronics and electrical industries - Abstract
High-speed performance of BDD SFQ circuits is investigated, and the feasibility of large-scale circuit applications is discussed.
- Published
- 2003
37. Design and component test of a tiny processor based on the SFQ technology
- Author
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Yoshikawa, N., Matsuzaki, F., Nakajima, N., Fujiwara, K., Yoda, K., and Kawasaki, K.
- Subjects
Superconductive devices -- Research ,Microprocessors -- Research ,Code Division Multiple Access technology ,Microprocessor upgrade ,Microprocessor ,Business ,Electronics ,Electronics and electrical industries - Abstract
A new eight-bit SFQ processor is described and discussed.
- Published
- 2003
38. 1509P Impact of differential diagnosis of cachexia and refractory cachexia and appropriate nutritional support for cachexia on survival in terminal cancer patients
- Author
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Nakajima, N., primary
- Published
- 2020
- Full Text
- View/download PDF
39. P1.09-18 Small-Sized Spread Through Air Spaces (STAS) in Resected Pulmonary Adenocarcinoma: Is It Necessary to Record It as a Prognostic Factor?
- Author
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Yoshizawa, A., primary, Kondo, K., additional, and Nakajima, N., additional
- Published
- 2019
- Full Text
- View/download PDF
40. Morphometry of Araucaria angustifolia at different altitudes in Southern Brazil applied in the identification of critical growth points
- Author
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RICKEN, P., HESS, A. F., MATTOS, P. P. de, NAKAJIMA, N. Y., HOSOKAWA, R. T., POLLYNI RICKEN, Universidade Federal do Paraná, ANDRÉ FELIPE HESS, Universidade do Estado de Santa Catarina, PATRICIA POVOA DE MATTOS, CNPF, NELSON YOSHIHIRO NAKAJIMA, Universidade Federal do Paraná, and ROBERTO TUYOSHI HOSOKAWA, Universidade Federal do Paraná.
- Subjects
Araucária Angustifólia - Abstract
Made available in DSpace on 2019-12-18T18:28:03Z (GMT). No. of bitstreams: 1 56989p48.pdf: 360253 bytes, checksum: 2ca4e705641b7309d1f1addf6aa48682 (MD5) Previous issue date: 2019 Edição especial dos resumos do IUFRO World Congress, 25., 2019, Curitiba.
- Published
- 2019
41. Processing aids for mixing and extrusion of silica-natural rubber compounds
- Author
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Nakajima, N., Shieh, W.J., and Wang, Z.G.
- Subjects
Silica -- Usage ,Rubber -- Mixing ,Extrusion process -- Research ,Engineering and manufacturing industries ,Science and technology - Abstract
This paper explores the use of silica as a major component, 67% and 100%, of total filler content in natural rubber, carbon black being the minor component. In order to overcome the mixing difficulty, a coupling agent was used. A previous study dealt with the causes of difficulty in extruding high-silica and all-silica compounds. A premature reaction of the coupling agent with natural rubber resulted in wavy extrudates. In the case of a 100% silica compound, the filler dispersion and distribution were not satisfactory in spite of the presence of the coupling agent. The compound was too stiff to be extrudable. In the present work, metal carbonates were added to the formulation. They included calcium, zinc, magnesium, and lead carbonates. These additives significantly facilitated the incorporation, distribution, and dispersion of the filler. The resulting compounds were soft enough to be extruded. The extrudate surfaces were smooth to slightly wavy. Decreasing the amount of the coupling agent to 75% of the original recipe still allowed the compounds to be extruded, although the waviness of the extrudates increased somewhat.
- Published
- 1992
42. Conceptual design of Japan’s fusion DEMO reactor (JADEMO) and superconducting coil issues
- Author
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Tobita, K., primary, Utoh, H., additional, Hiwatari, R., additional, Miyoshi, Y., additional, Tokunaga, S., additional, Sakamoto, Y., additional, Someya, Y., additional, Asakura, N., additional, Homma, Y., additional, and Nakajima, N., additional
- Published
- 2019
- Full Text
- View/download PDF
43. Autocrine regulation of interleukin-8 by interleukin-1α in respiratory syncytial virus-infected pulmonary epithelial cells in vitro
- Author
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PATEL, J. A., JIANG, Z., NAKAJIMA, N., and KUNIMOTO, M.
- Published
- 1998
44. P2.09-32 Detached Epithelial Cell Cluster Size in Lung Adenocarcinoma is a Marker of Poor Prognosis
- Author
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Yoshizawa, A., primary, Kondo, K., additional, Nakajima, N., additional, Teramoto, Y., additional, Rokutan-Kurata, M., additional, and Sumiyoshi, S., additional
- Published
- 2018
- Full Text
- View/download PDF
45. The science of mixing rubber
- Author
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Nakajima, N.
- Subjects
Cats -- Care and treatment ,Business ,Chemicals, plastics and rubber industries - Abstract
Becoming familiar with rubber and its characteristics as a material will further the abilities of manufacturers to improve the mixing process. By determining length, structure and number of branch patterns and viscoelastic properties, manufacturers gain valuable data on molecular weight distribution and deformation and can adjust mixing processes accordingly., The mixing of rubber involves many variables, some of them are material and others are of a mechanical nature. Quite often one variable has a decisive influence on the entire [...]
- Published
- 1998
46. Dynamic mechanical analyses of SBS block copolymers containing tackifiers
- Author
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Nakajima, N.
- Subjects
Block copolymers -- Research ,Rubber chemistry -- Research ,Rubber industry -- Research ,Business ,Chemicals, plastics and rubber industries - Abstract
Aliphatic C-5 petroleum hydrocarbon resins were used as tackifiers to perform dynamic mechanical measurements of Kraton D-1101 and D-1102 styrene-butadiene-styrene block copolymers. The tests evaluated the effects of tackifiers on connectivity of the styrene domains and rubbery modulus. Isothermal measurements in the frequency range of 0.0316 to 100 rad/s at various temperatures were also performed., In previous work of this series (ref. 1), dynamic mechanical measurements were performed with styrene-butadienestyrene (SBS) block copolymers, Kraton D-1101 and D-1102. The isochronal data were obtained from -130 to [...]
- Published
- 1996
47. Rheology of PVC Plastisol: IV. Force Balance among Osmotic Pressure, Normal Stress, and Dilatational Stress
- Author
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Nakajima, N. and Harrell, E.R.
- Published
- 2001
- Full Text
- View/download PDF
48. Rheology of PVC Plastisol: III. Analyses of Dilatancy and Fracture
- Author
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Nakajima, N. and Harrell, E.R.
- Published
- 2001
- Full Text
- View/download PDF
49. Viscoelastic characterization of polyethylacrylate
- Author
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Nakajima, N. and Sundarapandian, S.K.
- Subjects
Viscoelastic materials -- Research ,Rubber, Artificial -- Research ,Business ,Chemicals, plastics and rubber industries - Abstract
Research demonstrates that the viscoelastic properties of polyethylacrylates are mainly determined by gel content. Gel content also controls processability. Mooney values do not give an accurate representation of processability or gel content, thus filters with a pore size smaller than usual must be used to determine a gel content range. Research methodology and results are discussed., Polyethylacrylates are oil-resistant and high-temperature resistant rubbers [refs. 1 and 2]. The commercial products are offered in various grades; the variation may be in the processability, in the chemical nature [...]
- Published
- 1995
50. Rheology of PVC Plastisol: Formation of Immobilized Layer in Pseudoplastic Flow
- Author
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Nakajima, N. and Harrell, E.R.
- Published
- 2001
- Full Text
- View/download PDF
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