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1. Aβ Influx into the Blood Evoked by Different Blood Aβ Removal Systems: A Potential Therapy for Alzheimer’s Disease

Author

Kitaguchi N, Kawaguchi K, Sakata M, Aoki H, Yamazaki K, Kaneko M, Kinomura J, Kato M, Hasegawa M, Suzuki N, Mizuno M, and Yuzawa Y

Subjects
amyloid, blood purification, extracorporeal system, polysulfone hemodialyzer, hexdc, 3d printer, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Nobuya Kitaguchi,1 Kazunori Kawaguchi,1 Miwa Sakata,1 Hiroki Aoki,1 Kazunori Yamazaki,1 Megumi Kaneko,1 Jun Kinomura,1 Masao Kato,2 Midori Hasegawa,2 Nobuo Suzuki,3 Masao Mizuno,4 Yukio Yuzawa2 1Faculty of Clinical Engineering, School of Medical Sciences, Fujita Health University, Toyoake, Aichi, 470-1192, Japan; 2Department of Nephrology, School of Medicine, Fujita Health University, Toyoake, Aichi, Japan; 3Chiryu Clinic, Chiryu, Aichi, Japan; 4Mizuno Clinic, Toyoake, Aichi, JapanCorrespondence: Nobuya KitaguchiFaculty of Clinical Engineering, School of Health Sciences, Fujita Health University, 4-8-17, Yuzato, Higashisumiyosi-Ku, Osaka, 546-0013, JapanTel +81-6-4392-7087Fax +81-6-4392-7087Email nkitaguc@fujita-hu.ac.jpPurpose: Amyloid-β (Aβ) is a brain protein that causes Alzheimer’s disease. We have revealed that extracorporeal blood Aβ-removal systems evoked a large Aβ influx into the blood. This study investigated the system that is more effective in evoking Aβ influx.Methods: Aβ removal activities were compared between hexadecyl-alkylated cellulose beads (HexDC) and fragments of polysulfone hollow fibers (PSf-HFs) in mini-columns to eliminate the filtration effect. Then, adsorptive filtration systems were adapted for PSf hemodialyzers to enhance Aβ adsorption on micropores in the wall of hollow fibers. Plasma Aβ concentrations of patients with renal failure were analyzed during treatment with PSf hemodialyzers alone for 8 h or tandemly connected HexDC and PSf hemodialyzers for 4 h.Results: In the in vitro study, Aβ removal efficiency for HexDC was approximately 100% during the 60 min treatment, whereas the removal efficiency for PSf-HF fragments gradually decreased. However, PSf hemodialyzer in adsorptive filtration systems removed Aβs comparably or more than HexDC. Aβ influx into the blood increases time-dependently. Concomitant use of HexDC and PSf hemodialyzer evoked a larger Aβ1– 40 influx than that of PSf hemodialyzer alone. However, Aβ1– 42 influx by PSf hemodialyzer alone was similar to or a little larger than influx by the combined system. Both systems evoked almost doubled Aβ influx than estimated Aβs existing in the normal brain during the 4 h treatment.Conclusion: PSf hemodialyzer alone for a longer period and concomitant use of HexDC and PSf hemodialyzer for a shorter time effectively evoked a larger Aβ influx. To evoke Aβ1– 42 influx, PSf hemodialyzer alone was effective enough. These findings of devices and treatment time may lead to optimal clinical settings for therapy and prevention of Alzheimer’s disease.Keywords: amyloid, blood purification, extracorporeal system, polysulfone hemodialyzer, HexDC, 3D printer

Published
2021

2. Exact continuum theory of anti-Klein tunneling in bilayer graphene

Author

Maksym, P. A. and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Exact conditions for anti-Klein transmission zeros are found analytically with a 4-component continuum approach which includes trigonal warping. Anti-Klein tunneling occurs at oblique incidence on steps and barriers with soft and hard walls as well as in the known case of normal incidence on a hard step. The necessary energy and angle of incidence depend on the crystallographic orientation of the step or barrier. At normal incidence on an armchair step in unbiased bilayer graphene, anti-Klein tunneling occurs because both the continuum and the tight binding Hamiltonians are invariant under layer and site interchange. At oblique incidence, anti-Klein tunneling is valley-dependent even in the absence of trigonal warping. An experimental arrangement that functions both as a detector of anti-Klein tunneling and a valley polarizer is suggested. There are cases where anti-Klein tunneling occurs in the 4-component theory but not in the 2-component approximation., Comment: 16 pages, 10 figures

Published
2023

4. The effects of concomitant GERD, dyspepsia, and rhinosinusitis on asthma symptoms and FeNO in asthmatic patients taking controller medications

Author

Ishizuka T, Hisada T, Kamide Y, Aoki H, Seki K, Honjo C, Sakai H, Kadowaki M, Umeda Y, Morikawa M, Anzai M, Ameshima S, Ishizaki T, Dobashi K, Yamada M, and Kusano M

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Tamotsu Ishizuka,1,2 Takeshi Hisada,2 Yosuke Kamide,2 Haruka Aoki,2 Kaori Seki,2 Chisato Honjo,1 Hiroyuki Sakai,1 Maiko Kadowaki,1 Yukihiro Umeda,1 Miwa Morikawa,1 Masaki Anzai,1 Shingo Ameshima,1 Takeshi Ishizaki,1 Kunio Dobashi,2 Masanobu Yamada,2 Motoyasu Kusano3 1Third Department of Internal Medicine, Faculty of Medical Sciences, University of Fukui, Fukui, 2Department of Medicine and Molecular Science, Gunma University Graduate School of Medicine, 3Department of Endoscopy and Endoscopic Surgery, Gunma University Hospital, Maebashi, Japan Background: Losing the sense of smell, which suggests eosinophilic rhinosinusitis, is a subjective symptom, sometimes reported in asthmatic patients taking controller medication. Upper abdominal symptoms, suggesting gastroesophageal reflux disease (GERD) or functional dyspepsia, occur also in these patients. However, the relationship between these symptoms, concomitant with asthma, and the intensity of eosinophilic airway inflammation remains obscure. Objective: To assess the symptoms of asthma and rhinosinusitis, and to examine the relationship between the symptoms and bronchial inflammation, a new questionnaire, the G scale, was developed. To investigate the effects of GERD, dyspepsia, and rhinosinusitis on asthma symptoms and bronchial inflammation, the symptoms of asthma and rhinosinusitis obtained by the G scale, upper abdominal symptoms obtained by the modified F scale, a questionnaire for GERD and dyspepsia, and fractional exhaled nitric oxide (FeNO) were analyzed. Methods: A prospective, observational study was performed in four hospitals in Gunma prefecture, and a retrospective analysis was done using data obtained from five hospitals in Gunma prefecture and Fukui prefecture, Japan. A total of 252 patients diagnosed as having asthma participated in the prospective study. Results: The frequency of daytime phlegm or losing the sense of smell had a positive correlation with FeNO levels in asthmatic patients taking controller medication. Upper abdominal symptoms, as well as symptoms suggesting rhinitis, were well correlated with asthma symptoms. However, neither upper abdominal symptoms nor rhinitis symptoms increased FeNO levels, which reflect eosinophilic airway inflammation during treatment for asthma. On the other hand, the degree of upper abdominal symptoms or dyspepsia symptoms had a weak but significant negative correlation with FeNO levels. Conclusion: Daytime phlegm and losing the sense of smell suggest that eosinophilic airway inflammation persists, despite anti-inflammatory therapy, in patients with asthma. Although rhinitis and GERD made the subjective symptoms of asthma worse, they did not seem to enhance eosinophilic airway inflammation. Keywords: asthma symptoms, FeNO, rhinosinusitis, GERD, dyspepsia

Published
2014

5. Sub-cycle multidimensional spectroscopy of strongly correlated materials

Author

Valmispild, V., Gorelov, E., Eckstein, M., Lichtenstein, A., Aoki, H., Katsnelson, M., Ivanov, M., and Smirnova, O.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases, Physics - Atomic Physics, Physics - Optics, Quantum Physics
Abstract

Strongly correlated solids are extremely complex and fascinating quantum systems, where new states continue to emerge, especially when interaction with light triggers interplay between them. In this interplay, sub-laser-cycle electron response is particularly attractive as a tool for ultrafast manipulation of matter at PHz scale. Here we introduce a new type of non-linear multidimensional spectroscopy, which allows us to unravel the sub-cycle dynamics of strongly correlated systems interacting with few-cycle infrared pulses and the complex interplay between different correlated states evolving on the sub-femtosecond time-scale. We demonstrate that single particle sub-cycle electronic response is extremely sensitive to correlated many-body dynamics and provides direct access to many body response functions. For the two-dimensional Hubbard model under the influence of ultra-short, intense electric field transients, we demonstrate that our approach can resolve pathways of charge and energy flow between localized and delocalized many-body states on the sub-cycle time scale and follow the creation of a highly correlated state surviving after the end of the laser pulse. Our findings open a way towards a regime of imaging and manipulating strongly correlated materials at optical rates, beyond the multi-cycle approach employed in Floquet engineering, with the sub-cycle response being a key tool for accessing many body phenomena., Comment: 10 pages, 4, figures, Methods (5 pages), Supplementary information (4 figures, 4 pages)

Published
2022

6. A systematic study of the hybrid experiment at Mt.Chacaltaya

Author

Semba H., Ohsawa A., Ohmori N., Ochi N., Martinic N., Kawasumi N., Inoue N., Honda K., Aoki H., Tamada M., and Ticona R.

Subjects
Physics, QC1-999
Abstract

In the hybrid experiment on Mt.Chacaltaya, we can observe three different components of airshowers, that is, air-shower size, burst-density and high energy families (a bundle of high energy particles). Burst-density in each block of hadron calorimeters are newly recalculated in simulations in oder to compare directly to the experimental data. Energy deposits in the scintillators of the hadron calorimeters are calculated using GEANT4 for every particle, incident upon the hadron calorimeter, in the air-showers simulated using CORSIKA, and are converted into burst-density, taking into consideration the exact structure of experimental hadron calorimeter. We study correlations among three observable components in the air-showers. Correlations between air-shower size and burst-density and those between air-shower size and accompanied family energy can be explained by model calculations by adjusting primary particle composition, the former correlation is in favor of proton-primaries but the latter iron-primaries. No model can describe well observed correlations between burst-density and family energy. That is, the observed family energy accompanied by the air-showers with larger burst-density is systematically smaller than that expected in the simulated events. Effects of a fluctuation in the cross-section of hadronic interactions are studied to settle the disagreement between experimental data and simulations.

Published
2013
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7. Complete Spin and Valley Polarization by Total External Reflection from Potential Barriers in Bilayer Graphene and Monolayer Transition Metal Dichalcogenides

Author

Maksym, P. A. and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

It is shown that potential barriers in bilayer graphene (BLG) and monolayer transition metal dichalcogenides (TMDs) can split a valley unpolarized incident current into reflected and transmitted currents with opposite valley polarization. Valley asymmetric transmission inevitably occurs because of the low symmetry of the total Hamiltonian and when total external reflection occurs the transmission is 100% valley polarized in BLG and 100% spin and valley polarized in TMDs, except for exponentially small corrections. By adjusting the potential, 100% polarization can be obtained regardless of the crystallographic orientation of the barrier. A valley polarizer can be realized by arranging for a collimated beam of carriers to be incident on a barrier within the range of angles for total external reflection. The transmission coefficients of barriers with a relative rotation of $\pm\pi/3$ are related by symmetry. This allows two barriers to be used to demonstrate that the current is valley polarized. A soft-walled potential is used to model the barrier and the method used to find the transmission coefficients is explained. In the case of monolayer TMDs, a 4-band k.p Hamiltonian is used and the k.p parameters are obtained by fitting to ab-initio band structures., Comment: 21 pages, 16 figures; merged paper and supplemental material; updated references

Published
2019
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9. Lattice realization of the generalized chiral symmetry in two dimensions

Author

Kawarabayashi, T., Aoki, H., and Hatsugai, Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

While it has been pointed out that the chiral symmetry, which is important for the Dirac fermions in graphene, can be generalized to tilted Dirac fermions as in organic metals, such a generalized symmetry was so far defined only for a continuous low-energy Hamiltonian. Here we show that the generalized chiral symmetry can be rigorously defined for lattice fermions as well. A key concept is a continuous "algebraic deformation" of Hamiltonians, which generates lattice models with the generalized chiral symmetry from those with the conventional chiral symmetry. This enables us to explicitly express zero modes of the deformed Hamiltonian in terms of that of the original Hamiltonian. Another virtue is that the deformation can be extended to non-uniform systems, such as fermion-vortex systems and disordered systems. Application to fermion vortices in a deformed system shows how the zero modes for the conventional Dirac fermions with vortices can be extended to the tilted case., Comment: 11 pages, 10 figures

Published
2016
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10. Damping of the Collective Amplitude Mode in Superconductors with Strong Electron-Phonon Coupling

Author

Murakami, Y., Werner, P., Tsuji, N., and Aoki, H.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

We study the effect of strong electron-phonon interactions on the damping of the Higgs amplitude mode in superconductors by means of non-equilibrium dynamical mean-field simulations of the Holstein model. In contrast to the BCS dynamics, we find that the damping of the Higgs mode strongly depends on the temperature, becoming faster as the systen approaches the transition temperature. The damping at low temperatures is well described by a power-law, while near the transition temperature the damping shows exponential-like behavior. We explain this crossover by a temperature-dependent quasiparticle lifetime caused by the strong electron- phonon coupling, which smears the superconducting gap edge and makes the relaxation of the Higgs mode into quasiparticles more efficient at elevated temperatures. We also reveal that the phonon dynamics can soften the Higgs mode, which results in a slower damping., Comment: 7 pages,6 figures

Published
2016
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11. Sub-cycle multidimensional spectroscopy of strongly correlated materials

Author

Valmispild, V.N., Gorelov, E., Eckstein, M., Lichtenstein, A.I., Aoki, H., Katsnelson, M.I., Ivanov, M.Yu., Smirnova, O., Valmispild, V.N., Gorelov, E., Eckstein, M., Lichtenstein, A.I., Aoki, H., Katsnelson, M.I., Ivanov, M.Yu., and Smirnova, O.

Abstract

Contains fulltext : 306572.pdf (Publisher’s version ) (Open Access)

Published
2024

12. Erratum.

Author

Klionsky, DJ, Abdelmohsen, K, Abe, A, Abedin, MJ, Abeliovich, H, Arozena, AA, Adachi, H, Adams, CM, Adams, PD, Adeli, K, Adhihetty, PJ, Adler, SG, Agam, G, Agarwal, R, Aghi, MK, Agnello, M, Agostinis, P, Aguilar, PV, Aguirre-Ghiso, J, Airoldi, EM, Ait-Si-Ali, S, Akematsu, T, Akporiaye, ET, Al-Rubeai, M, Albaiceta, GM, Albanese, C, Albani, D, Albert, ML, Aldudo, J, Algül, H, Alirezaei, M, Alloza, I, Almasan, A, Almonte-Beceril, M, Alnemri, ES, Alonso, C, Altan-Bonnet, N, Altieri, DC, Alvarez, S, Alvarez-Erviti, L, Alves, S, Amadoro, G, Amano, A, Amantini, C, Ambrosio, S, Amelio, I, Amer, AO, Amessou, M, Amon, A, An, Z, Anania, FA, Andersen, SU, Andley, UP, Andreadi, CK, Andrieu-Abadie, N, Anel, A, Ann, DK, Anoopkumar-Dukie, S, Antonioli, M, Aoki, H, Apostolova, N, Aquila, S, Aquilano, K, Araki, K, Arama, E, Aranda, A, Araya, J, Arcaro, A, Arias, E, Arimoto, H, Ariosa, AR, Armstrong, JL, Arnould, T, Arsov, I, Asanuma, K, Askanas, V, Asselin, E, Atarashi, R, Atherton, SS, Atkin, JD, Attardi, LD, Auberger, P, Auburger, G, Aurelian, L, Autelli, R, Avagliano, L, Avantaggiati, ML, Avrahami, L, Azad, N, Awale, S, Bachetti, T, Backer, JM, Bae, DH, Bae, JS, Bae, ON, Bae, SH, Baehrecke, EH, Baek, SH, Baghdiguian, S, and Bagniewska-Zadworna, A

Subjects
Biochemistry & Molecular Biology, Biochemistry and Cell Biology
Published
2016

13. Flat bands in Weaire-Thorpe model and silicene

Author

Hatsugai, Y., Shiraishi, K., and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In order to analytically capture and identify peculiarities in the electronic structure of silicene, Weaire-Thorpe(WT) model, a standard model for treating three-dimensional (3D) silicon, is applied to silicene with the buckled 2D structure. In the original WT model for four hybridized $sp^3$ orbitals on each atom along with inter-atom hopping, the band structure can be systematically examined in 3D, where flat (dispersionless) bands exist as well. For examining silicene, here we re-formulate the WT model in terms of the overlapping molecular-orbital (MO) method which enables us to describe flat bands away from the electron-holesymmetric point. The overlapping MO formalism indeed enables us to reveal an important difference: while in 3D the dipersive bands with cones are sandwiched by doubly-degenerate flat bands, in 2D the dipersive bands with cones are sandwiched by triply-degenerate and non-degenerate (nearly) flat bands, which is consistent with the original band calculation by Takeda and Shiraishi. Thus emerges a picture for why the whole band structure of silicene comprises a pair of dispersive bands with Dirac cones with each of the band touching a nearly flat (narrow) band at $\Gamma$. We can also recognize that, for band engineering, the bonds perpendicular to the atomic plane are crucial, and that a ferromagnetism or structural instabilities are expected if we can shift the chemical potential close to the flat bands., Comment: 13 pages, 3 figures (final version) to appear in NJP

Published
2014
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15. Three-orbital study on the orbital distillation effect in the high Tc cuprates

Author

Sakakibara, H., Suzuki, K., Usui, H., Kuroki, K., Arita, R., Scalapino, D. J., and Aoki, H.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Our recent study has revealed that the mixture of the dz2 orbital component into the Fermi surface suppresses Tc in the cuprates such as La2CuO4. We have also shown that applying hydrostatic pressure enhances Tc due to smaller mixing of the Cu4s component. We call these the "orbital distillation" effect. In our previous study, the 4s orbital was taken into account through the hoppings in the dx2-y2 sector, but here we consider a model in which of the dx2-y2, dz2 and 4s orbitals are all considered explicitly. The present study reinforces our conclusion that smaller 4s hybridization further enhances Tc., Comment: 4 pages, 2 figures, submitted as a proceeding of ISS2012(Tokyo)

Published
2012
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16. Magnetic field controlled vacuum charge in graphene quantum dots with a mass gap

Author

Maksym, P. A. and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Atomic Physics, Quantum Physics
Abstract

The effect of a magnetic field on the charged vacuum is investigated. The field dependence of the energy levels causes jumps in the total vacuum charge that occur whenever an energy level crosses the Fermi level and this leads to re-entrant cycles of vacuum charging and discharging. In atomic systems these effects require astrophysical magnetic fields of around 10^8 T but in graphene with a mass gap they occur in laboratory fields of about 1 T or lower. It is suggested that an electrostatic graphene quantum dot defined by a gate electrode provides a solid state model of the as yet unobserved charged vacuum as well as a model of an atomic system in an extreme astrophysical environment. Phase diagrams are computed to show how the total vacuum charge depends on the confining potential strength and applied magnetic field. In addition the field dependence of the vacuum charge density is investigated and experimental consequences are discussed., Comment: 5 pages, 4 figures

Published
2012
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17. Chiral symmetry and its manifestation in optical responses in graphene: interaction and multi-layers

Author

Hatsugai, Y., Morimoto, T., Kawarabayashi, T., Hamamoto, Y., and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Chiral symmetry, fundamental in the physics of graphene, guarantees the existence of topologically stable doubled Dirac cones and anomalous behaviors of the zero-energy Landau level in magnetic fields. The crucial role is inherited in the optical responses and many-body physics in graphene, which are explained in this paper. We also give an overview of multilayer graphene from the viewpoint of the optical properties and their relation with the chiral symmetry., Comment: 21 pages, 9 figures

Published
2012
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18. Chiral symmetry and fermion doubling in the zero-mode Landau levels of massless Dirac fermions with disorder

Author

Kawarabayashi, T., Honda, T., Aoki, H., and Hatsugai, Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The effect of disorder on the Landau levels of massless Dirac fermions is examined for the cases with and without the fermion doubling. To tune the doubling a tight-binding model having a complex transfer integral is adopted to shift the energies of two Dirac cones, which is theoretically proposed earlier and realizable in cold atoms in an optical lattice. In the absence of the fermion doubling, the $n=0$ Landau level is shown to exhibit an anomalous sharpness even if the disorder is uncorrelated in space (i.e., large K-K' scattering). This anomaly occurs when the disorder respects the chiral symmetry of the Dirac cone., Comment: 3 pages, 2 figures, Proceedings of ICPS 2012, typos corrected, one sentence added in section II

Published
2012
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20. Terahertz dynamics of a topologically protected state: quantum Hall effect plateaus near cyclotron resonance in a GaAs/AlGaAs heterojunction

Author

Stier, A. V., Ellis, C. T., Zhang, H., Eason, D., Strasser, G., Morimoto, B. D. McCombe T., Aoki, H., and Cerne, J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We measure the Hall conductivity of a two-dimensional electron gas formed at a GaAs/AlGaAs heterojunction in the terahertz regime close to the cyclotron resonance frequency by employing a highly sensitive Faraday rotation method coupled with electrical gating of the sample to change the electron density. We observe clear plateau-and step-like features in the Faraday rotation angle vs. electron density and magnetic field (Landau-level filling factor), which are the high frequency manifestation of quantum Hall plateaus - a signature of topologically protected edge states. The results are compared to a recent dynamical scaling theory., Comment: 18 pages, 3 figures

Published
2011
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21. Origin of the material dependence of $T_c$ in the single-layered cuprates

Author

Sakakibara, H., Usui, H., Kuroki, K., Arita, R., and Aoki, H.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

In order to understand the material dependence of $T_c$ within the single-layered cuprates, we study a two-orbital model that considers both $d_{x^2-y^2}$ and $d_{z^2}$ orbitals. We reveal that a hybridization of $d_{z^2}$ on the Fermi surface substantially affects $T_c$ in the cuprates, where the energy difference $\Delta E$ between the $d_{x^2-y2}$ and $d_{z^2}$ orbitals is identified to be the key parameter that governs both the hybridization and the shape of the Fermi surface. A smaller $\Delta E$ tends to suppress $T_c$ through a larger hybridization, whose effect supersedes the effect of diamond-shaped (better-nested) Fermi surface. The mechanism of the suppression of d-wave superconductivity due to $d_{z^2}$ orbital mixture is clarified from the viewpoint of the ingredients involved in the Eliashberg equation, i.e., the Green's functions and the form of the pairing interaction described in the orbital representation. The conclusion remains qualitatively the same if we take a three-orbital model that incorporates Cu 4s orbital explicitly, where the 4s orbital is shown to have an important effect of making the Fermi surface rounded. We have then identified the origin of the material and lattice-structure dependence of $\Delta E$, which is shown to be determined by the energy difference $\Delta E_d$ between the two Cu3d orbitals (primarily governed by the apical oxygen height), and the energy difference $\Delta E_p$ between the in-plane and apical oxygens (primarily governed by the interlayer separation $d$).

Published
2011
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22. Chiral Symmetry and Electron-Electron Interaction in Many-Body Gap Formation in Graphene

Author

Hamamoto, Y., Hatsugai, Y., and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study a many-body ground state of graphene in perpendicular magnetic fields. Chiral symmetry in graphene enables us to determine the many-body ground state, which turns out to be a doubly degenerate chiral condensate for the half-filled (undoped) case. In the ground state a prominent charge accumulation emerges along zigzag edges. We also show that gapless excitations are absent despite the presence of the robust edge modes, which is consistent with the Chern number C = 0., Comment: 4 pages, 3 figures, proceeding of 26th International Conference on Low Temperature Physics (LT26)

Published
2011
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23. Experiments to investigate the effects of radiative cooling on plasma jet collimation

Author

Gregory, C. D., Diziere, A., Aoki, H., Besio, M., Bouquet, S., Falize, E., Ide, T., Loupias, B., Michaut, C., Morita, T., Pikuz Jr., S. A., Ravasio, A., Kuramtisu, Y., Sakawa, Y., Takabe, H., Tanji, H., Woolsey, N. C., and Koenig, M.

Subjects
Physics - Plasma Physics
Abstract

Preliminary experiments have been performed to investigate the effects of radiative cooling on plasma jets. Thin (3 um - 5 um) conical shells were irradiated with an intense laser, driving jets with velocities > 100 km/s. Through use of different target materials - aluminium, copper and gold - the degree of radiative losses was altered, and their importance for jet collimation investigated. A number of temporally resoved optical diagnostics was used, providing information about the jet evolution. Gold jets were seen to be narrower than those from copper targets, while aluminium targets produced the least collimated flows., Comment: Presented at the 8th High Energy Density Laboratory Astrophysics conference, March 15th - 18th, Caltech, CA, USA

Published
2010

24. Manipulation of the Dirac cones and the anomaly in the graphene related quantum Hall effect

Author

Watanabe, H, Hatsugai, Y, and Aoki, H

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The quantum Hall effect in graphene is regarded to be involving half-integer topological numbers associated with the massless Dirac particle, this is usually not apparent due to the doubling of the Dirac cones. Here we theoretically consider two classes of lattice models in which we manipulate the Dirac cones with either (a) two Dirac points that have mutually different energies, or (b) multiple Dirac cones having different Fermi velocities. We have shown, with an explicit calculation of the topological (Chern) number for case (a) and with an adiabatic argument for case (b) that the results are consistent with the picture that a single Dirac fermion contributes the half-odd integer series (... -3/2, -1/2, 1/2, 3/2, ...) to the Hall conductivity when the Fermi energy traverses the Landau levels., Comment: 4 pages, 5 figures, proceedings for HMF-19

Published
2010
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25. Phase-separated Ferromagnetism in Spin-imbalanced Fermi Atoms Loaded on an Optical Ladder: a DMRG study

Author

Okumura, M., Yamada, S., Machida, M., and Aoki, H.

Subjects
Condensed Matter - Quantum Gases
Abstract

We consider repulsively-interacting cold fermionic atoms loaded on an optical ladder lattice in a trapping potential. The density-matrix renormalization-group method is used to numerically calculate the ground state for systematically varied values of interaction U and spin imbalance p in the Hubbard model on the ladder. The system exhibits rich structures, where a fully spin polarized phase, spatially separated from other domains in the trapping potential, appears for large enough U and p. The phase-separated ferromagnetism can be captured as a real-space image of the energy gap between the ferromagnetic and other states arising from a combined effect of Nagaoka's ferromagnetism extended to the ladder and the density dependence of the energy separation between competing states. We also predict how to maximize the ferromagnetic region.

Published
2010
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26. Proposal for a magnetic field induced graphene dot

Author

Maksym, P. A., Roy, M., Craciun, M. F., Yamamoto, M., Tarucha, S., and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Quantum dots induced by a strong magnetic field applied to a single layer of graphene in the perpendicular direction are investigated. The dot is defined by a model potential which consists of a well of depth $\Delta V$ relative to a flat asymptotic part and quantum states formed from the zeroth Landau level are considered. The energy of the dot states cannot be lower than $-\Delta V$ relative to the asymptotic potential. Consequently, when $\Delta V$ is chosen to be about half of the gap between the zeroth and first Landau levels, the dot states are isolated energetically in the gap between Landau level 0 and Landau level -1. This is confirmed with numerical calculations of the magnetic field dependent energy spectrum and the quantum states. Remarkably, an antidot formed by reversing the sign of $\Delta V$ also confines electrons but in the energy region between Landau level 0 and Landau level +1. This unusual behaviour gives an unambiguous signal of the novel physics of graphene quantum dots., Comment: 4 pages, 2 figures

Published
2010
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27. 4f-derived Fermi Surfaces of CeRu2(Si[1-x]Ge[x])2 near the Quantum Critical Point: Resonant Soft X-ray ARPES Study

Author

Okane, T., Ohkochi, T., Takeda, Y., Fujimori, S. -i., Yasui, A., Saitoh, Y., Yamagami, H., Fujimori, A., Matsumoto, Y., Sugi, M., Kimura, N., Komatsubara, T., and Aoki, H.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Angle-resolved photoelectron spectroscopy in the Ce 3d-4f excitation region was measured for the paramagnetic state of CeRu2Si2, CeRu2(Si0.82Ge0.18)2, and LaRu2Si2 to investigate the changes of the 4$f$ electron Fermi surfaces around the quantum critical point. While the difference of the Fermi surfaces between CeRu2Si2 and LaRu2Si2 was experimentally confirmed, a strong 4f-electron character was observed in the band structures and the Fermi surfaces of CeRu2Si2 and CeRu2(Si0.82Ge0.18)2, consequently indicating a delocalized nature of the 4$f$ electrons in both compounds. The absence of Fermi surface reconstruction across the critical composition suggests that SDW quantum criticality is more appropriate than local quantum criticality in CeRu2(Si[1-x]Ge[x])2., Comment: 4 pages, 5 figures

Published
2009
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28. The role of cellular senescence in aortic dissection

Author

Nakao, E, primary, Aoki, H, additional, Hashimoto, Y, additional, Majima, R, additional, Hori-Hayashi, M, additional, Ito, S, additional, Ohno-Urabe, S, additional, Furusho, A, additional, Nishida, N, additional, Hirakata, S, additional, and Fukumoto, Y, additional

Published
2023
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31. EP08.02-10 Clinicopathological Analyses for Predicting Survival After Salvage Surgery for Initially Unresectable Lung Cancer

Author

Oka, N., primary, Hishida, T., additional, Kaseda, K., additional, Oshiro, Y., additional, Sakurada, A., additional, Sugino, K., additional, Aoki, H., additional, Ishiguro, Y., additional, Imoto, T., additional, Okubo, Y., additional, Masai, K., additional, Asakura, K., additional, Emoto, K., additional, and Asamura, H., additional

Published
2023
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32. Anisotropy in spatial order-disorder transformations and the vortex lattice symmetry transition in $YNi_2B_2C$ and $LuNi_2B_2C$

Author

Jaiswal-Nagar, D., Isshiki, T., Kimura, N., Aoki, H., Takeya, H., Ramakrishnan, S., and Grover, A. K.

Subjects
Condensed Matter - Superconductivity
Abstract

Explorations of the order-disorder transformation in vortex matter in single crystals of tetragonal structured (c/a $\sim$3) borocarbide superconductors, $YNi_2B_2C$ and $LuNi_2B_2C$, reveal that vortex arrays experience different effective pinning in different crystallographic directions. We surmise that correlation exists between the large anisotropy in effective pinning/disorder and the differences in the (local) symmetry transition from rhombohedral to (quasi) square vortex lattice(VL). For field along high symmetry directions, like, c-axis and ab-basal plane, the VL symmetry is close to square and the ordered state spans a large field interval. When the field is turned away from the c-axis towards ab-plane, at intermediate angles, the region of ordered state shrinks, in response to enhancement in effective pinning. At such intermediate angles the symmetry of the VL would be far from ideal triangular or square., Comment: 6 pages, 5 figures (Accepted in Euro Phys. Letts.)

Published
2008
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33. Accurate Model of a Vertical Pillar Quantum Dot

Author

Maksym, P. A., Nishi, Y., Austing, D. G., Hatano, T., Kouwenhoven, L. P., Aoki, H., and Tarucha, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

An accurate model of a vertical pillar quantum dot is described. The full three dimensional structure of the device containing the dot is taken into account and this leads to an effective two dimensional model in which electrons move in the two lateral dimensions, the confinement is parabolic and the interaction potential is very different from the bare Coulomb potential. The potentials are found from the device structure and a few adjustable parameters. Numerically stable calculation procedures for the interaction potential are detailed and procedures for deriving parameter values from experimental addition energy and chemical potential data are described. The model is able to explain magnetic field dependent addition energy and chemical potential data for an individual dot to an accuracy of about 5%, the accuracy level needed to determine ground state quantum numbers from experimental transport data. Applications to excited state transport data are also described., Comment: 14 pages, 6 figures

Published
2008

35. Topological aspects of graphene: Dirac fermions and the bulk-edge correspondence in magnetic fields

Author

Hatsugai, Y., Fukui, T., and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We discuss topological aspects of electronic properties of graphene, including edge effects, with the tight-binding model on a honeycomb lattice and its extensions to show the following: (i) Appearance of the pairn of massless Dirac dispersions, which is the origin of anomalous properties including a peculiar quantum Hall effect (QHE), is not accidental to honeycomb, but is rather generic for a class of two-dimensional lattices that interpolate between square and $\pi$-flux lattices. Persistence of the peculiar QHE is interpreted as a topological stability. (ii) While we have the massless Dirac dispersion only around E=0, the anomalous QHE associated with the Dirac cone unexpectedly persists for a wide range of the chemical potential. The range is bounded by van Hove singularities, at which we predict a transition to the ordinary fermion behavior acompanied by huge jumps in the QHE with a sign change. (iii) For edges we establish a coincidence between the quantum Hall effect in the bulk and the quantum Hall effect for the edge states, which is a manifestation of the topological bulk-edge correspondence. We have also explicitly shown that the E=0 edge states in honeycomb in zero magnetic field persist in magnetic field., Comment: 8 pages, 5 figures, proceeding of the graphene conference at MPIPKS Dresden, Sep. 25-Oct.1, 2006

Published
2007
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36. Topological analysis of the quantum Hall effect in graphene: Dirac-Fermi transition across van Hove singularities and the edge vs bulk quantum numbers

Author

Hatsugai, Y., Fukui, T., and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Inspired by a recent discovery of a peculiar integer quantum Hall effect (QHE) in graphene, we study QHE on a honeycomb lattice in terms of the topological quantum number, with two-fold interests: First, how the zero-mass Dirac QHE around the center of the tight-binding band crosses over to the ordinary finite-mass fermion QHE around the band edges. Second, how the bulk QHE is related with the edge QHE for the entire spectrum including Dirac and ordinary behaviors. We find the following: (i) The zero-mass Dirac QHE persists up to the van Hove singularities, at which the ordinary fermion behavior abruptly takes over. Here a technique developed in the lattice gauge theory enabled us to calculate the behavior of the topological number over the entire spectrum. This result indicates a robustness of the topological quantum number, and should be observable if the chemical potential can be varied over a wide range in graphene. (ii) To see if the honeycomb lattice is singular in producing the anomalous QHE, we have systematically surveyed over square-honeycomb-$\pi$-flux lattices, which is scanned by introducing a diagonal transfer $t'$. We find that the massless Dirac QHE forms a critical line, that is, the presence of Dirac cones in the Brillouin zone is preserved by the inclusion of $t'$ and the Dirac region sits side by side with ordinary one persists all through the transformation. (iii) We have compared the bulk QHE number obtained by an adiabatic continuity of the Chern number across transformation and numerically obtained edge QHE numbers calculated from the whole energy spectra for sample with edges, which shows that the bulk QHE number coincides, as in ordinary lattices, with the edge QHE number throughout the lattice transformation., Comment: Its pdf file with high quality figures is obtained from http://pothos.t.u-tokyo.ac.jp/Lab/Research/preprints/TopoQHE_honey.pdf

Published
2006

37. Transitions between electron-molecule states in electrostatic quantum dots

Author

Maksym, P. A. and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Intermediate spin states that occur in electrostatic dots in the magnetic field regime just beyond the maximum density droplet are investigated. The 5-electron system is studied with exact diagonalization and group theory. The results indicate that the intermediate spin states are mixed symmetry states with a superposition of 5- and 4-fold electron-molecule configurations. A superposition of 5- and 4-fold correlation functions is found to reproduce the exact mixed symmetry pair correlation function to around 2%., Comment: 4 pages, 3 figures

Published
2006
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38. Intermediate Low Spin States in a Few-electron Quantum Dot in the $\nu\le 1$ Regime

Author

Nishi, Y., Maksym, P. A., Austing, D. G., Hatano, T., Kouwenhoven, L. P., Aoki, H., and Tarucha, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the effects of electron-electron interactions in a circular few-electron vertical quantum dot in such a strong magnetic field that the filling factor $\nu\le 1$. We measure excitation spectra and find ground state transitions beyond the maximum density droplet ($\nu=1$) region. We compare the observed spectra with those calculated by exact diagonalization to identify the ground state quantum numbers, and find that intermediate low-spin states occur between adjacent spin-polarized magic number states., Comment: 4 pages, 4 figures

Published
2005
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40. Electronic structure of an electron on the gyroid surface, a helical labyrinth

Author

Koshino, M. and Aoki, H.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

Previously reported formulation for electrons on curved periodic surfaces is used to analyze the band structure of an electron bound on the gyroid surface (the only triply-periodic minimal surface that has screw axes). We find that an effect of the helical structure appears as the bands multiply sticking together on the Brillouin zone boundaries. We elaborate how the band sticking is lifted when the helical and inversion symmetries of the structure are degraded. We find from this that the symmetries give rise to prominent peaks in the density of states., Comment: RevTeX, 4 pages, 6 figures

Published
2004
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41. Structure and magnetism in nanocrystalline Ca(La)B$_6$ films

Author

Sakuraba, Y., Kato, H., Sato, F., Miyazaki, T., Kimura, N., and Aoki, H.

Subjects
Condensed Matter - Materials Science
Abstract

Nanocrystalline films of La-doped CaB$_6$ have been fabricated by using a rf-magnetron sputtering. Lattice expansion of up to 6% with respect to the bulk value was observed along the direction perpendicular to the film plane, which arises from the trapping of Ar gas into the film. Large ferromagnetic moment of 3 ~ 4 Bohr magneton per La has been observed in some La-doped films only when the lattice expansion rate is larger than 2.5%., Comment: 2 pages, 2 figures, to appear in J. Magn. Magn. Mater

Published
2004
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42. Field-angle Dependence of the Zero-Energy Density of States in the Unconventional Heavy-Fermion Superconductor CeCoIn5

Author

Aoki, H., Sakakibara, T., Shishido, H., Settai, R., Onuki, Y., Miranovic, P., and Machida, K.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

Field-angle dependent specific heat measurement has been done on the heavy-fermion superconductor CeCoIn5 down to ~ 0.29 K, in a magnetic field rotating in the tetragonal c-plane. A clear fourfold angular oscillation is observed in the specific heat with the minima (maxima) occurring along the [100] ([110]) directions. Oscillation persists down to low fields H << Hc2, thus directly proving the existence of gap nodes. The results indicate that the superconducting gap symmetry is most probably of dxy type., Comment: 8 pages, 3 figures, to be published in J. Phys. Condens. Matter

Published
2003
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43. Electronic Structure of B-2$p\sigma$ and $p\pi$ States in MgB$_2$, AlB$_2$ and ZrB$_2$ Single Crystals

Author

Nakamura, J., Nasubida, S., Kabasawa, E., Yamazaki, H., Yamada, N., Kuroki, K., Watanabe, M., Oguchi, T., Lee, S., Yamamoto, A., Tajima, S., Umeda, Y., Minakawa, S., Kimura, N., Aoki, H., Otani, S., Shin, S., Callcott, T. A., Ederer, D. L., Denlinger, J. D., and Perera, R. C. C.

Subjects
Condensed Matter - Superconductivity
Abstract

The effect of electron correlation (EC) on the electronic structure in MgB$_2$, AlB$_2$ and ZrB$_2$, is studied by examining the partial density of states (PDOS) of B-2$p\sigma$ and $p\pi$ orbitals using the polarization dependence of x-ray emission and absorption spectra. The discrepancies between observed and calculated PDOSs cannot be attributed to EC effects. The present results suggest that the EC effect is less than the experimental error ($\sim$ 0.2 eV), which indirectly supports a scenario that electron-phonon interaction plays an essential role in the occurrence of superconductivity., Comment: to appear in Phys. Rev. B

Published
2003
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44. Electronic structure of periodic curved surfaces -- continuous surface versus graphitic sponge

Author

Aoki, H., Koshino, M., Takeda, D., Morise, H., and Kuroki, K.

Subjects
Condensed Matter - Materials Science
Abstract

We investigate the band structure of electrons bound on periodic curved surfaces. We have formulated Schr\"{o}dinger's equation with the Weierstrass representation when the surface is minimal, which is numerically solved. Bands and the Bloch wavefunctions are basically determined by the way in which the ``pipes'' are connected into a network, where the Bonnet(conformal)-transformed surfaces have related electronic strucutres. We then examine, as a realisation of periodic surfaces, the tight-binding model for atomic networks (``sponges''), where the low-energy spectrum coincides with those for continuous curved surfaces., Comment: 4 pages

Published
2003
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45. Superconductivity in repulsive electron systems having three-dimensional disconnected Fermi surfaces

Author

Onari, S., Arita, R., Kuroki, K., and Aoki, H.

Subjects
Condensed Matter - Superconductivity
Abstract

The idea of raising Tc in the spin-fluctuation mediated superconductivity on disconnected Fermi surfaces with the gap function changing sign across but not within the Fermi pockets, proposed by Kuroki and Arita for two dimensions (2D), is here extended to three-dimensional (3D) systems. Two typical cases of 3D disconnected Fermi surfaces (stacked bond-alternating lattice and stacked ladder layers) are considered. By solving Eliashberg's equation for Green's function obtained with the fluctuation exchange approximation (FLEX) for the repulsive Hubbard model on these structures, we have shown that Tc can indeed reach O(0.01t), which is almost an order of magnitude higher than in ordinary 3D cases and similar to those for the best case found in 2D. The key factor found here for the favorable condition for the superconductivity on disconnected Fermi surfaces is that the system should be quasi-low dimensional, and the peak in the spin susceptibility should be appropriately "blurred"., Comment: 8 pages, 12 figures

Published
2003
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46. Duality and integer quantum Hall effect in isotropic 3D crystals

Author

Koshino, M. and Aoki, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We show here a series of energy gaps as in Hofstadter's butterfly, which have been shown to exist by Koshino et al [Phys. Rev. Lett. 86, 1062 (2001)] for anisotropic three-dimensional (3D) periodic systems in magnetic fields $\Vec{B}$, also arise in the isotropic case unless $\Vec{B}$ points in high-symmetry directions. Accompanying integer quantum Hall conductivities $(\sigma_{xy}, \sigma_{yz}, \sigma_{zx})$ can, surprisingly, take values $\propto (1,0,0), (0,1,0), (0,0,1)$ even for a fixed direction of $\Vec{B}$ unlike in the anisotropic case. We can intuitively explain the high-magnetic field spectra and the 3D QHE in terms of quantum mechanical hopping by introducing a ``duality'', which connects the 3D system in a strong $\Vec{B}$ with another problem in a weak magnetic field $(\propto 1/B)$., Comment: 7 pages, 6 figures

Published
2002
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47. Resistivity, Hall effect and Shubnikov-de Haas oscillations in CeNiSn

Author

Terashima, T., Terakura, C., Uji, S., Aoki, H., Echizen, Y., and Takabatake, T.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The resistivity and Hall effect in CeNiSn are measured at temperatures down to 35 mK and in magnetic fields up to 20 T with the current applied along the {\it b} axis. The resistivity at zero field exhibits quadratic temperature dependence below $\sim$0.16 K with a huge coefficient of the $T^2$ term (54 $\mu$$\Omega$cm/K$^2$). The resistivity as a function of field shows an anomalous maximum and dip, the positions of which vary with field directions. Shubnikov-de Haas (SdH) oscillations with a frequency {\it F} of $\sim$100 T are observed for a wide range of field directions in the {\it ac} and {\it bc} planes, and the quasiparticle mass is determined to be $\sim$10-20 {\it m}$_e$. The carrier density is estimated to be $\sim10^{-3}$ electron/Ce. In a narrow range of field directions in the {\it ac} plane, where the magnetoresistance-dip anomaly manifests itself clearer than in other field directions, a higher-frequency ($F=300\sim400\text{T}$) SdH oscillation is found at high fields above the anomaly. This observation is discussed in terms of possible field-induced changes in the electronic structure., Comment: 15 pages, 5 figures, to appear in Phys. Rev. B (15 Sept. 2002 issue)

Published
2002
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48. Tomography of pairing symmetry from magnetotunneling spectroscopy -- a case study for quasi-1D organic superconductors

Author

Tanuma, Y., Kuroki, K., Tanaka, Y., Arita, R., Kashiwaya, S., and Aoki, H.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

We propose that anisotropic $p$-, $d$-, or $f$-wave pairing symmetries can be distinguished from a tunneling spectroscopy in the presence of magnetic fields, which is exemplified here for a model organic superconductor ${(TMTSF)}_{2}X$. The shape of the Fermi surface (quasi-one-dimensional in this example) affects sensitively the pairing symmetry, which in turn affects the shape (U or V) of the gap along with the presence/absence of the zero-bias peak in the tunneling in a subtle manner. Yet, an application of a magnetic field enables us to identify the symmetry, which is interpreted as an effect of the Doppler shift in Andreev bound states., Comment: 4 papegs, 4 figures

Published
2002
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49. Orbifold Matrix Model

Author

Aoki, H., Iso, S., and Suyama, T.

Subjects
High Energy Physics - Theory
Abstract

We study a matrix model describing type IIB superstring in orbifold backgrounds. We particularly consider a {\bf C}^3/{\bf Z}_3 orbifold model whose six dimensional transverse space is orbifolded by {\bf Z}_3 discrete symmetry. This model is chiral and has d=4 {\cal N}=1 supersymmetry of Yang-Mills type as well as an inhomogeneous supersymmetry specific to matrix models. We calculate one-loop effective action around some backgrounds, and the result can be interpreted as interactions mediated by massless particles in IIB supergravity in orbifold background, if the background is in the Higgs branch. If the background is in the Coulomb branch, the dynamics is governed by the reduced model of d=4 super Yang-Mills theory, which might be interpreted as exchange of massless particles in the twisted sector. But the perturbative calculation cannot reproduce the supergravity result. We also show that this model with a large Higgs vacuum expectation value becomes IIB (IKKT) matrix model., Comment: 23 pages, references added

Published
2002
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50. The Magnetic Phase Diagram and the Pressure and Field Dependence of the Fermi Surface in UGe$_2$

Author

Terashima, T., Matsumoto, T., Terakura, C., Uji, S., Kimura, N., Endo, M., Komatsubara, T., Aoki, H., and Maezawa, K.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

The ac susceptibility and de Haas-van Alphen (dHvA) effect in UGe$_2$ are measured at pressures {\it P} up to 17.7 kbar for the magnetic field {\it B} parallel to the {\it a} axis, which is the easy axis of magnetization. Two anomalies are observed at {\it B$_x$}({\it P}) and {\it B}$_m$({\it P}) ({\it B$_x$} $>$ {\it B}$_m$ at any {\it P}), and the {\it P}-{\it B} phase diagram is presented. The Fermi surface and quasiparticle mass are found to vary smoothly with pressure up to 17.7 kbar unless the phase boundary {\it B$_x$}({\it P}) is crossed. The observed dHvA frequencies may be grouped into three according to their pressure dependences, which are largely positive, nearly constant or negative. It is suggested that the quasiparticle mass moderately increases as the boundary {\it B$_x$}({\it P}) is approached. DHvA effect measurements are also performed across the boundary at 16.8 kbar., Comment: to be published in Phys. Rev. B

Published
2002
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