論文リスト

    1. S. Uryu,
      Excitons and plasmons of graphene nanoribbons in infrared frequencies in an effective-mass approximation,
      Phys. Rev. B 97, 155409-1--19 (2020).

    2. S. Uryu,
      Crossovers from excitons to plasmons in narrow-gap carbon nanotubes,
      Phys. Rev. B 97, 236413-1--13 (2018).

    3. S. Uryu,
      Numerical study of cross-polarized plasmons in doped carbon nanotubes,
      Phys. Rev. B 97, 125420-1--12 (2018).

    4. S. Uryu,
      Numerical study on collective excitations in graphene,
      Phys. Rev. B 94, 155451-1--12 (2016).

    5. Y. Fujimoto and S. Uryu,
      Exciton scattering from impurities and acoustic phonons in carbon nanotubes,
      Phys. Rev. B 88, 235408-1--11 (2013).

    6. S. Uryu, H. Ajiki, and H. Ishihara,
      Model of Finite-Momentum Excitons Driven by Surface Plasmons in Photoexcited Carbon Nanotubes Covered by Gold Metal Films,
      Phys. Rev. Lett. 110, 157401-1--5 (2013).

    7. S. Uryu and T. Ando,
      Environment effect on cross-polarized excitons in carbon nanotubes,
      Phys. Rev. B 86, 125412-1--12 (2012).

    8. S. Uryu and T. Ando,
      Breakdown of exchange approximation for cross-polarized excitons in carbon nanotubes,
      J. Phys.: Conf. Ser., 302 , 012004-1--4 (2011).

    9. S. Uryu and T. Ando,
      Effect of electron-hole asymmetry on cross-polarized excitons in carbon nanotubes,
      Phys. Rev. B 83, 085404-1--10 (2011).

    10. S. Uryu and T. Ando,
      One-dimensional characters of excitons in carbon nanotubes,
      Proceedings of SPIE 7608, 76081J-1--12 (2010).

    11. H. Ajiki, T. Iida, T. Ishikawa, S. Uryu, and H. Ishihara,
      Theory of Radiation Force on Carbon Nanotubes,
      Jpn. J. Appl. Phys. 49, 02BB03-1--4 (2010).

    12. T. Ando and S. Uryu,
      Theory of excitons in carbon nanotubes,
      phys. stat. sol. (c) 6, issue 1, 173--180 (2009).

    13. H. Ajiki, T. Iida, T. Ishikawa, S. Uryu, and H. Ishihara,
      Size- and orientation-selective optical manipulation of single-walled carbon nanotubes: A theoretical study,
      Phys. Rev. B 80, 115437-1--11 (2009).

    14. S. Uryu and T. Ando,
      Impurity driven inter-tube conductance in double-wall carbon nanotubes,
      Physica E 40, 1344--1346 (2008).

    15. S. Uryu and T. Ando,
      Cross-Polarized Exciton Absorption in Semiconducting Carbon Nanotubes,
      Springer Proceedings in Physics 119, 119--121 (2008).

    16. S. Uryu, H. Ajiki, and T. Ando,
      Excitonic two-photon absorption in semiconducting carbon nanotubes within an effective-mass approximation,
      Phys. Rev. B 78, 115414-1-115414-6 (2008).

    17. S. Uryu and T. Ando,
      Excitons in metallic carbon nanotubes with Aharonov-Bohm flux,
      Phys. Rev. B 77, 205407-1-205407-9 (2008).

    18. K. Tsukagoshi, S. Uryu, and Y. Aoyagi,
      Quasi-periodic Coulomb blockade oscillations in a single-wall carbon nanotube bundle,
      Solid State Phenomena 121-123, 537--540 (2007).

    19. S. Uryu and T. Ando,
      Aharonov-Bohm effect on exciton absorption of perpendicular light in carbon nanotubes,
      Physica E 40, 289--292 (2007).

    20. T. Ando, Y. Asada, and S. Uryu,
      Theory of quantum transport in carbon nanotubes: Perfect conductance, dynamical conductivity, and inter-wall interaction,
      phys. stat. sol. (a) 204, No. 6, 1882--1891 (2007).

    21. S. Uryu and T. Ando,
      Strong inter-tube coupling induced by disorder in double-wall carbon nanotubes,
      AIP Conf. Proc. 893, 1035--1036 (2007).

    22. S. Uryu and T. Ando,
      Prominent exciton absorption of perpendicularly polarized light in carbon nanotubes,
      AIP Conf. Proc. 893, 1033--1034 (2007).

    23. S. Uryu and T. Ando,
      Electric intertube transfer in double-wall carbon nanotubes with impurities: Tight-binding calculations,
      Phys. Rev. B 76, 155434-1-155434-8 (2007).

    24. S. Uryu and T. Ando,
      Cross-polarized exciton absorption in carbon nanotubes with Aharonov-Bohm flux,
      Phys. Rev. B 76, 115420-1-115420-6 (2007).

    25. S. Uryu and T. Ando,
      Negligible inter-wall interaction in sliding double-wall carbon nanotubes,
      Journal of Physics: Conference Series 38, 45--48 (2006).

    26. S. Uryu and T. Ando,
      Impurity induced inter-tube conductance in double-wall carbon nanotubes,
      Phys. Stat. Sol. (b) 243, 3281--3284 (2006).

    27. S. Uryu and T. Ando,
      Exciton absorption of perpendicularly polarized light in carbon nanotubes,
      Phys. Rev. B 74, 155411-1-155411-9 (2006).

    28. S. Uryu and T. Ando,
      Inter-tube transfer of electrons in various double-wall carbon nanotubes,
      AIP Conf. Proc. 772, 1029--1030 (2005).

    29. S. Uryu and T. Ando,
      Length-independent inter-tube conductance in double-wall carbon nanotubes,
      Physica E 29, 500--504 (2005).

    30. S. Uryu and T. Ando,
      Electronic intertube transfer in double-wall carbon nanotubes,
      Phys. Rev. B 72, 245403-1-245403-10 (2005).

    31. S. Uryu,
      Imperfect transmission in perfect double-wall carbon nanotubes,
      Physica E 21, 1084--1088 (2004).

    32. S. Uryu,
      Electronic states and quantum transport in double-wall carbon nanotubes,
      Phys. Rev. B 69, 075402-1-075402-10 (2004).

    33. S. Uryu,
      Conductance oscillations in double-wall carbon nanotubes,
      Proceedings of 26th International Conference of the Physics of Semiconductors (CD-ROM), 2002.

    34. A. Kanda, S. Uryu, K. Tsukagoshi, Y. Ootuka, and Y. Aoyagi,
      Magnetic field dependence of the Coulomb oscillation in metal/multi-wall carbon nanotube/metal structures,
      Physica B 323, 246--248 (2002).

    35. A. Kanda, K. Tsukagoshi, S. Uryu, Y. Ootuka, and Y. Aoyagi,
      Resistance dependence of transport properties of metal-multi-wall carbon nanotube-metal structures,
      Microelectronic Engineering 63, 33--37 (2002).

    36. S. Uryu and T. Ando,
      Resistivity of two-dimensional systems with electrostatic and magnetic-field modulations,
      Microelectronic Engineering 63, 247--251 (2002).

    37. K. Tsukagoshi, N. Yoneya, S. Uryu, Y. Aoyagi, A. Kanda, Y.Ootuka, and B. W. Alphenaar,
      Carbon nanotube devices for nanoelectronics,
      Physica B 323, 107--114 (2002).

    38. S. Uryu and T. Ando,
      Insulator-quantum Hall transition in antidot lattices,
      Phys. Rev. B 65, 035322-035329 (2001).

    39. S. Uryu and T. Ando,
      Umklapp electron-electron scattering in weakly modulated two-dimensional electron systems,
      Phys. Rev. B 64, 195334-195348 (2001).

    40. S. Uryu and T. Ando,
      Energy-gap effects on Umklapp scattering in weakly modulated two-dimensional electron systems,
      Proceedings of 25th International Conference of the Physics of Semiconductors, Osaka, 2000 (Springer verlag) p.1335.

    41. S. Uryu and T. Ando,
      Aharonov-Bohm oscillation of localization in antidot lattices,
      Physica E 6, 503--506 (2000).

    42. T. Ando and S. Uryu,
      Chaotic Transport in Antidot Lattices,
      Joun. of Electronic Materials 29, 557--564 (2000).

    43. S. Uryu and T. Ando,
      Magnetic-field dependence of localization in antidot lattices,
      Prog. Theor. Phys. Supplement 138, 521--522 (2000).

    44. T.Ando and S. Uryu,
      QUANTUM CHAOTIC TRANSPORT IN MESOSCOPIC ANTIDOT ARRAYS,
      Proceedings of International Symposium of Electrochemical Society, Hawaii, 1999 (Electrochemical Society Inc., USA) Vol.99--22, p.377.

    45. S. Uryu and T. Ando,
      Characteristic localization phenomena in antidot lattices,
      Micro-electronic Engineering 47, 147--149 (1999).

    46. S. Uryu and T. Ando,
      Localization oscillation in antidot lattices,
      Physica B 249-251, 308--311 (1998).

    47. S. Uryu and T. Ando,
      AHARONOV-BOHM TYPE OSCILLATION IN ANTIDOT LATTICES,
      Solid-State Electronics 42, 1141--1145 (1998).

    48. S. Uryu and T. Ando,
      Aharonov-Bohm oscillation and periodic orbits in antidote lattices,
      Physica B 256-258, 388--391 (1998).

    49. S. Uryu and T. Ando,
      Numerical study of localization in antidot lattices,
      Phys. Rev. B 58, 10583-10588 (1998).

    50. S. Uryu and T. Ando,
      Magnetotransport in Antidot Lattices,
      Proceedings of 23rd International Conference of the Physics of Semiconductors, Berlin, 1996 (World Scientific, Singapore 1996) p.1505.

    51. S. Uryu and T. Ando,
      Electronic states in antidot lattices: Scattering-matrix formalism,
      Phys. Rev. B 53, 13613-13623 (1996).

    52. S. Uryu and T. Ando,
      Analysis of antidot lattices with periodic orbit theory,
      Physica B 227, 138--140 (1996).

    53. S. Uryu and T. Ando,
      Scattering-Matrix Formalism for Antidot Lattices,
      Jpn. J. Appl. Phys. 34, 4295--4297 (1995).

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