Recent Papers of Riichiro Saito

This page started on Aug 20 2001. Last modified: Wed Sep 20 14:05:54 JST 2017

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Short name with parentheses is the bibtex name that are used in stda2000.bib(not open for public).

Get a full list of publications (pdf 300kB) since 1985 if you do not find the paper in the following list. See also Reference page and citation information.

  1. Negative Refraction in Weyl Semimetals, M. S. Ukhtary, A. R. T. Nugraha, R. Saito, J. Phys. Soc. Jpn. 86, 104703, (2017), (shoufie17-weyl)
  2. Two-dimensional InSe as a potential thermoelectric material, N. T. Hung, A. R. T. Nugraha, R.Saito, Appl. Phys. Lett. 111, 092107, (2017), (nguyen17-InTe)
  3. First-principles study on interlayer state in alkali and alkaline earth metal atoms intercalated bilayer graphene, T. Kaneko, R. Saito, Surface Science 665, 1-9, (2017), (kaneko17-BGIC)
  4. Sensitive Phonon-Based Probe for Structure Identification of 1T' MoTe2, L. Zhou, S. Huang, Y. Tatsumi, L. Wu, H. Guo, Y.-Q. Bie, K. Ueno, T. Yang, Y. Zhu, J. Kong, R. Saito, M. Dresselhaus, J. Am. Chem. Soc. 139, 8396-8399, (2017), (zhou17-mote2)
  5. Circular dichroism of single-wall carbon nanotubes, N. Sato, Y. Tatsumi, R. Saito, Phys. Rev. B. 95, 155436-1-11, (2017), (nsato17-CD)
  6. Charge-induced electrochemical actuation of armchair carbon nanotube bundles, N. T. Hung, A. R. T. Nugraha, R. Saito, Carbon, 118, 278-284, (2017), (nguyen17-muscle)
  7. Quantum interference on electron scattering in graphene by carbon impurities in underlying h-BN, T. Kaneko, M. Koshino, R. Saito, Phys. Rev. B. 95, 125421-1-7, (2017), (kaneko17-hBN)
  8. Stability and electronic properties of two-dimensional indium iodide, J. Wang, B. Dong, H. Guo, T. Yang, Z. Zhu, G. Hu, R. Saito, Z. Zhang, Phys. Rev. B. 95, 045404-1-7, (2017), (wang17-InI)
  9. Selective coherent phonon-mode generation in single-wall carbon nanotubes, A. R. T. Nugraha, E. H. Hasdeo, R. Saito, J. Phys. Condens. Matter. 29, 055302-1-9, (2017), (nugraha17-cp)
  10. Giant Terahertz-Wave Absorption by Monolayer Graphene in a Total Internal Reflection Geometry, Y. Harada, M. S. Ukhtary, M. Wang, S. Srinivasan, E. H. Hasdeo, A. R. T. Nugraha, G. Noe, Y. Sakai, R. Vajtai, P. M. Ajayan, R. Saito, J. Kono, ACS Photonics 4, 121-126, (2017), (yoichi16-g)
  11. Laser energy dependence of valley polarization in transition-metal dichalcogenides, Y. Tatsumi, K. Ghalamkari, R. Saito, Phys. Rev. B. 94 , 235408-1-10, (2016), (tatsumi16-prb)
  12. Experimental determination of excitonic band structures of single-walled carbon nanotubes using circular dichroism spectra, X. Wei, T. Tanaka, Y. Yomogida, N. Sato, R. Saito, H. Kataura, Nat. Comm. 7, 12899-1-9, (2016), (wei16-CD)
  13. In-Plane Optical Anisotropy of Layered Gallium Telluride, S. Huang, Y. Tatsumi, X. Ling, H. Guo, Z. Wang, G. Watson, A. A. Puretzky, D. B. Geohegan, J. Kong, J. Li, T. Yang, R. Saito, M. S. Dresselhaus, ACS Nano 10, 8964-8972, (2016), (huang16-acsnano)
  14. Phonon-assisted indirect transitions in angle-resolved photoemission spectra of graphite and graphene, P. Ayria, S. Tanaka, A. R. T. Nugraha, M. S. Dresselhaus, R. Saito, Phys. Rev. B. 94, 075429-1-12, (2016), (pourya16-ph)
  15. Broadband transverse electric surface wave in silicene , M. S. Ukhtary, A. R. T. Nugraha, E. H. Hasdeo, R. Saito, Appl. Phys. Lett. 109, 063103-1-4, (2016), (ukhtary16-apl)
  16. Fermi energy dependence of first- and second-order Raman spectra in graphene: Kohn anomaly and quantum interference effect, E. H. Hasdeo, A. R. T. Nugraha, M. S. Dresselhaus, R. Saito, Phys. Rev. B. 94, 075104-1-9, (2016), (hasdeo16-ka)
  17. Quantum Effects in the Thermoelectric Power Factor of Low-Dimensional Semiconductors, N. T. Hung, A. R. T. Nugraha, E. H. Hasdeo, M. S. Dresselhaus, R. Saito, Phys. Rev. Lett. 117, 036602-1-5, (2016), (nguyen16-qe)
  18. Understanding the interactions between lithium polysulfides and N-doped graphene using density functional theory calculations, L. C. Yin, J. Liang, G. M. Zhou, F. Li, R. Saito, H. M. Cheng, Nano Energy, 25, 203-210, (2016), (yin16-ui)
  19. Raman spectroscopy of transition metal dichalcogenides, R. Saito, Y. Tatsumi, S. Huang, X. Ling, M. S. Dresselhaus, Journal of Physics: Condensed Matter, 28, 353002-1-16, (2016), (saito16-jpcm)
  20. Multiple electronic Raman scatterings in a single metallic carbon nanotube, D. Zhang, J. Yang, E. H. Hasdeo, C. Liu, K. Liu, R. Saito, Y. Li, Phys. Rev. B. 93, 245428-1-6, (2016), (zhang16-me)
  21. Angular momentum and topology in semiconducting single-wall carbon nanotubes, W. Izumida, R. Okuyama, A. Yamakage, R. Saito, Phys. Rev. B. 93, 195442-1-18, (2016), (izumida16-ag)
  22. Anisotropic Electron-Photon and Electron-Phonon Interactions in Black Phosphorus, X. Ling, S. Huang, E. H. Hasdeo, L. Liang, W. M. Parkin, Y. Tatsumi, A. R. T. Nugraha, A. A. Puretzky, P. M. Das, B. G. Sumpter, D. B. Geohegan, J. Kong, R. Saito, M. Drndic, V. Meunier, M. S. Dresselhaus, Nano Lett. 16, 2260-2267, (2016), (ling16-nl)
  23. Absorption of THz electromagnetic wave in two mono-layers of graphene, C. B. Reynold, M. S. Ukhtary, R. Saito, Journal of Physics D: Applied Physics, 49, 195306-1-5, (2016), (reynold16-ab)
  24. Intrinsic strength and failure behaviors of ultra-small single-walled carbon nanotubes, N. T. Hung, D. V. Truong, V. V. Thanh, R. Saito, Computational Materials Science, 114, 167-171, (2016), (nguyen16-in)
  25. Photon energy dependence of angle-resolved photoemission spectroscopy in graphene, P. Ayria, A. R. T. Nugraha, E. H. Hasdeo, T. R. Czank, S. Tanaka, R. Saito, Phys. Rev. B 92, 195148 -1-7, (2015), (pourya15-ph)
  26. Ultraviolet Raman spectroscopy of graphene and transition-metal dichalcogenides, R. Saito, A. R. T. Nugraha, E. H. Hasdeo, S. Siregar, H. Guo, T. Yang, Phys. Status Solidi B 252, 2363-2374, (2015), (saito15-uv)
  27. Diameter dependence of thermoelectric power of semiconducting carbon nanotubes, N. T. Hung, A. R. T. Nugraha, E. H. Hasdeo, M. S. Dresselhaus, R. Saito, Phys. Rev. B 92, 165426-1-7, (2015), (nguyen15-dp)
  28. Large-Area Synthesis of High-Quality Uniform Few-Layer MoTe2, L. Zhou, K. Xu, A. Zubair, A. D. Liao, W. Fang, F. Ouyang, Y.H. Lee, K. Ueno, R. Saito, T. Palacios, J. Kong, M. S. Dresselhaus, J. Am. Chem. Soc.137, 37, 11892-11895, (2015), (zhou15-la)
  29. Valley coupling in finite-length metallic single-wall carbon nanotubes, W. Izumida, R. Okuyama, and R. Saito, Phys. Rev. B 91, 8, 235442-1-18, (2015), (izumida15-vc)
  30. Anomalous lattice vibrations of monolayer MoS2 probed by ultraviolet Raman scattering, H.L. Liu, H. Guo, T. Yang, Z. Zhang, Y. Kumamoto, C.C. Shen, Y.T. Hsu, R. Saito, S. Kawata, Phys. Chem. Chem. Phys., 17, 14561-14568 (2015), (liu15-al)
  31. Double resonance Raman modes in monolayer and few-layer MoTe2, H. Guo, T. Yang, M. Yamamoto, L. Zhou, R. Ishikawa, K. Ueno, K. Tsukagoshi, Z. Zhang, M.S. Dresselhaus, and R. Saito, Phys. Rev. B 91, 8, 205415-1-8, (2015), (guo15-dr)
  32. Fermi energy-dependence of electromagnetic wave absorption in graphene, M. S. Ukhtary, E. H. Hasdeo, A. R. T. Nugraha, R. Saito, APEX, 8, 055102-1-4, (2015), (shoufie15-fd)
  33. Origin of van Hove singularities in twisted bilayer graphene, H. B. Ribeiro, K. Sato, G.S.N. Eliel, E.A.T. de Souza, Chun-Chieh Lu, Po-Wen Chiu, R. Saito, M.A. Pimenta, Carbon, 90, 138-145, (2015), (ribeiro15-ov)
  34. Origin of coherent G-band phonon spectra in single-wall carbon nanotubes, A. R. T. Nugraha, E. H. Hasdeo, G. D. Sanders, C. J. Stanton, R. Saito, Phys. Rev. B 91, 045406-1-6, (2015), (nugraha15-ocp)
  35. Deep-ultraviolet Raman scattering studies of monolayer graphene thin films, H.L. Liu , S. Siregar, E. H. Hasdeo, Y. Kumamoto, C. Shen, C. Cheng, L. Li, R. Saito, S. Kawata, Carbon, 81, 807-813, (2015), (liu15-du)
  36. Breit-Wigner-Fano line shapes in Raman spectra of graphene, E. H. Hasdeo, A. R. T. Nugraha, R. Saito, M. S. Dresselhaus, Phys. Rev. B 90, 245140-1-8, (2014)
  37. Disorder-induced double resonant Raman process in graphene, J. F. Rodriguez-Nieva, E. B. Barros, R. Saito, and M. S. Dresselhaus, Phys. Rev. B 90, 235410-1-9, (2014).
  38. Ultrafast Generation of Fundamental and Multiple-Order Phonon Excitations in Highly Enriched (6,5) Single-Wall Carbon Nanotubes, Y. S. Lim, A. R. T. Nugraha, S. J. Cho, M. Y. Noh, E. J. Yoon,H. Liu, J. H. Kim, H. Telg, E. H. Haroz, G. D. Sanders, S. H. Baik,H. Kataura, S. K. Doorn, C. J. Stanton, R. Saito, J. Kono, T. Joo, Nano Lett. 14, 1426-1432, (2014).
  39. Gate modulated Raman spectroscopy of graphene and carbon nanotubes, R. Saito, K. Sato, P.T. Araujo, D.L. Mafra, M.S. Dresselhaus, Solid State Communications 175-176, 18-34, (2013).
  40. Evidence for structural phase transitions and large effective band gaps in quasi-metallic ultra-clean suspended carbon nanotubes, S. W. Chang, R. Dhall, M. Amer, K. Sato, R. Saito, S. Cronin, Nano Research 6, 736-744, (2013).
  41. Strong magnetophonon resonance induced triple G-mode splitting in graphene on graphite probed by micromagneto Raman spectroscopy, C. Qiu, X. Shen, B. Cao, C. Cong, R. Saito, J. Yu, M. S. Dresselhaus, T. Yu, Phys. Rev. B 88, 165407-1-12, (2013).
  42. Electronic Raman scattering and the Fano resonance in metallic carbon nanotubes, E. H. Hasdeo, A. R. T. Nugraha, K. Sato, M. S. Dresselhaus, and R. Saito, Phys. Rev. B 88, 115107-1-8, (2013).
  43. Excitonic effects on coherent phonon dynamics in single-wall carbon nanotubes, A. R. T. Nugraha, E. I. Rosenthal, E. H. Hasdeo, G. D. Sanders, C. J. Stanton, M. S. Dresselhaus, and R. Saito, Phys. Rev. B 88, 075440-1-8, (2013).
  44. Fano resonance in Raman scattering of graphene, D. Yoon, D. Jeong, H. J. Lee, R. Saito, Y. W. Son, H. Y. Lee, H. Cheong, Carbon, 61, 373-378, (2013).
  45. Direct real-time monitoring of stage transitions in graphite intercalation compounds, A. Dimiev, G. Ceriotti, N. Behabtu, D. Zakhidov, M. Pasquali, R. Saito, J. M. Tour, ACS Nano 7, 2773-2780, (2013).
  46. Theory of coherent phonons in carbon nanotubes and graphene nanoribbons, G. Sanders, A. R. T. Nugraha, K. Sato, J. H. Kim, J. Kono, R. Saito, C. J. Stanton, J. Phys. Cond. Matt. 25, 144201-1-32, (2013).
  47. Dramatic increase in the Raman signal of functional groups on carbon nanotube surfaces, D. M. Andrada, H. S. Vieira, M. M. Oliveira, A. P. Santos, L. C. Yin, R. Saito, M. A. Pimenta, C. Fantini, C. A. Furtado, Carbon, 56, 235-242, (2013).
  48. Coherent phonons in carbon nanotubes and graphene, J. H. Kim, A. R. T. Nugraha, L. G. Booshehri, E. H. Haroz, K. Sato, G. D. Sanders, K. J. Yee, Y. S. Lim, C. J. Stanton, R. Saito, J. Kono, Chem. Phys. 413, 55-80, (2013).
  49. Unraveling the interlayer-related phonon self-energy renormalization in bilayer graphene, P. T. Araujo, D. L. Mafra, K. Sato, R. Saito, J. Kong, M. S. Dresselhaus, Scientific Reports 2, 1017-1-6, (2012).
  50. Using gate-modulated Raman scattering and electron-phonon interactions to probe single-layer graphene: A different approach to assign phonon combination modes, D. L. Mafra, J. Kong, K. Sato, R. Saito, M. S. Dresselhaus, P. T. Araujo, Phys. Rev. B 86, 195434-1-9, (2012).
  51. Effect of Domain Boundaries on the Raman Spectra of Mechanically Strained Graphene, M. A. Bissett, W. Izumida, R. Saito, H. Ago, ACS Nano 6, 10229-10238, (2012).
  52. Observation of layer-breathing mode vibration in few-layer graphene through combination Raman scattering, C. H. Lui, L. M. Malard, S. H. Kim, G. Lantz, F. E. Laverge, R. Saito, T. F. Heinz, Nano Lett. 12, 5539-5544, (2012).
  53. Reversible formation of ammonium persulfate/sulfuric acid graphite intercalation compounds and their peculiar Raman spectra, A. M. Dimiev, S. M. Bachilo, R. Saito, J. M. Tour, ACS Nano 6, 7842-7849, (2012).
  54. Zone folding effect in Raman G-band intensity of twisted bilayer graphene, K. Sato, R. Saito, C. Cong, T. Yu, M. S. Dresselhaus, Phys. Rev. B 86, 125414-1-6, (2012).
  55. Raman spectroscopy of boron-doped single-layer graphene, Y. A. Kim, K. Fujisawa, H. Muramatsu, T. Hayashi, M. Endo, T. Fujimori, K. Kaneko, M. Terrones, J. Behrends, A. Eckmann, C. Casiraghi, K. S. Novoselov, R. Saito, M. S. Dresselhaus, ACS Nano 6, 6293-6300, (2012).
  56. Phonon self-energy corrections to nonzero wave-vector phonon modes in single-layer graphene, P. T. Araujo, D. L. Mafra, K. Sato, R. Saito, J. Kong, and M. S. Dresselhaus, Phys. Rev. Lett. 109, 046801-1-5, (2012).
  57. Effect of 13C isotope doping on the optical phonon modes in graphene: Localization and Raman spectroscopy, J. F. Rodriguez-Nieva, R. Saito, S. D. Costa, M. S. Dresselhaus, Phys. Rev. B 85, 245406-1-8, (2012).
  58. Using the G' Raman cross-section to understand the phonon dynamics in bilayer graphene systems, D. L. Mafra, P. T. Araujo, K. Sato, R. Saito, M. S. Dresselhaus, J. Kong, Nano Lett. 12, 2883-2887, (2012).
  59. Coherent radial-breathing-like phonons in graphene nanoribbons, G. D. Sanders, A. R. T. Nugraha, R. Saito, C. J. Stanton, Phys. Rev. B 85, 205401-1-17, (2012).
  60. Asymmetric velocities of Dirac particles and Vernier spectrum in metallic single-wall carbon nanotubes, W. Izumida, A. Vikstrom, R. Saito, Phys. Rev. B 85, 165430-1-8, (2012).
  61. Luminescence properties of individual empty and water-filled single-walled carbon nanotubes, S. Cambre, S. M. Santos, W. Wenseleers, A. R. T. Nugraha, R. Saito, L. Cognet, B. Lounis, ACS Nano 6, 2649-2655, (2012).
  62. Polarization dependence of x-ray absorption spectra in graphene, M. T. Chowdhury, R. Saito, and M. S. Dresselhaus, Phys. Rev. B 85, 115410, (2012).
  63. Raman Characterization of ABA- and ABC-Stacked Trilayer Graphene, C. Cong, T. Yu, K. Sato, J. Shang, R. Saito, G. Dresselhaus, M. S. Dresselhaus, ACS Nano 5, 8760-8768, (2011).
  64. Polar interface-induced improvement in high photocatalytic hydrogen evolution over ZnO-CdS heterostructures, X. Wang, L. C. Yin, G. Liu, L. Wang, R. Saito, G. Q. Lu, H. M. Cheng, Energy Environ. Sci. 4, 3976-3979, (2011).
  65. Chirality dependence of coherent phonon amplitudes in single-wall carbon nanotubes, A. R. T. Nugraha, G. D. Sanders, K. Sato, C. J. Stanton, M. S. Dresselhaus, R. Saito, Phys. Rev. B 84, 174302-1-6, (2011).
  66. Resonant Raman spectroscopy on enriched 13C carbon nanotubes, S. D. Costa, C. Fantini, A. Righi, A. Bachmatiuk, M. H. Rummeli, R. Saito, M. A. Pimenta, Carbon 49, 4719-4723, (2011).
  67. First Principles Calculations of the Electronic Structure of ZrN Allotropes, L.-C. Yin, R. Saito, J. Phys. Soc. Jpn. 80, 114707-1-6, (2011).
  68. Observation of Electronic Raman Scattering in Metallic Carbon Nanotubes, H. Farhat, S. Berciaud, M. Kalbac, R. Saito, T. F. Heinz, M. S. Dresselhaus, J. Kong, Phys. Rev. Lett. 107, 157401-1-4, (2011).
  69. Tunneling time of an optical pulse in a photonic bandgap, R. Endo, R. Saito, J. Opt. Soc. Am. B 28, 2537-2542, (2011).
  70. Fermi level dependent optical transition energy in metallic single-walled carbon nanotubes, L. C. Yin, H. M. Cheng, R. Saito, M. S. Dresselhaus, Carbon 49, 4774-4780, (2011).
  71. Raman spectroscopy of graphene and carbon nanotubes, R. Saito, M. Hofmann, G. Dresselhaus, A. Jorio, M. S. Dresselhaus, Advances in Physics 60, 413-550, (2011).
  72. Raman spectra of out-of-plane phonons in bilayer graphene, K. Sato, J. S. Park, R. Saito, C. Cong, T. Yu, C. H. Lui, T. F. Heinz, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. B 84, 035419-1-5, (2011).
  73. D band Raman intensity calculation in armchair edged graphene nanoribbons, E. B. Barros, K. Sato, Ge. G. Samsonidze, A. G. Souza Filho, M. S. Dresselhaus, R. Saito, Phys. Rev. B 83, 245435-1-8, (2011).
  74. Vibrational and NMR properties of polyynes, Md. M. Haque, L. C. Yin, A. R. T. Nugraha, R. Saito, Carbon 49, 3340-3345, (2011).
  75. Second-Order Overtone and Combination Raman Modes of Graphene Layers in the Range of 1690-2150 cm-1, C. Cong, Y. Ting, R, Saito, G. Dresselhaus, M. S. Dresselhaus, ACS Nano 5, 1600-1605, (2011).
  76. Confinement of excitons for the lowest optical transition energies of single wall carbon nanotubes, A. R. T. Nugraha, K. Sato, R. Saito, e-J. Surf. Sci. Nanotech. 8, 367-371, (2010).
  77. Defect characterization in graphene and carbon nanotubes using Raman spectroscopy, M. S. Dresselhaus, A. Jorio, A. G. Souza Filho, R. Saito, Phil. Trans. R. Soc. A 368, 5355-5377, (2010).
  78. Soliton trap in strained graphene nanoribbons, K. Sasaki, R. Saito, M. S. Dresselhaus, K. Wakabayashi, T. Enoki, New. J. Phys 12, 103015-1-12, (2010).
  79. Chirality dependence of the dielectric constant for the excitonic transition energy of single wall carbon nanotubes, P. T. Araujo, A. R. T. Nugraha, K. Sato, M. S. Dresselhaus, R. Saito, A. Jorio, Phys. Status Solidi B 247, 2847-2850, (2010).
  80. Excitonic effects on Raman intensity of single wall carbon nanotubes, K. Sato, A. R. T. Nugraha, R. Saito, e-J. Surf. Sci. Nanotech. 8, 358-361, (2010).
  81. Dielectric constant model for environmental effects on the exciton energies of single wall carbon nanotubes, A. R. T. Nugraha, R. Saito, K. Sato, P. T. Araujo, A. Jorio, M. S. Dresselhaus, Appl. Phys. Lett. 97, 091905-1-3, (2010).
  82. The Fermi level dependent electronic properties of the smallest (2,2) carbon nanotubes, L. C. Yin, R. Saito, M. S. Dresselhaus, Nano. Lett. 10, 3290-3296, (2010).
  83. Excitonic effects on radial breathing mode intensity of single wall carbon nanotubes, K. Sato, R. Saito, A. R. T. Nugraha, S. Maruyama, Chem. Phys. Lett. 497, 94-98, (2010).
  84. Raman spectra of graphene ribbons, R. Saito, M. Furukawa, G. Dresselhaus, M. S. Dresselhaus, J. Phys. Cond. Matt. 22, 334203-1-6, (2010).
  85. Characterizing graphene, graphite, and carbon nanotubes by Raman spectroscopy, M. S. Dresselhaus, A. Jorio, R. Saito, Ann. Rev. Cond. Mat. Phys. 1, 89-108, (2010).
  86. Torsional instability of chiral carbon nanotubes, D. G. Vercosa, E. B. Barros, A. G. Souza Filho, J. Mendez Filho, Ge. G. Samsonidze, R. Saito, M. S. Dresselhaus, Phys. Rev. B 81, 165430-1-5, (2010).
  87. Triangle defect states of hexagonal boron nitride atomic layer: Density functional theory calculations, L. C. Yin, H. M. Cheng, R. Saito, Phys. Rev. B 81, 153407-1-4, (2010).
  88. Identifying the orientation of edge of graphene using G band Raman spectra, K. Sasaki, R. Saito, K. Wakabayashi, T. Enoki, J. Phys. Soc. Jpn. 79, 044603-1-8, (2010).
  89. Kohn anomaly in Raman spectroscopy of carbon nanotubes, K. Sasaki. H. Farhat, R. Saito, M. S. Dresselhaus, Physica E 42, 2005-2015, (2010).
  90. Synthesis of Bandgap-Controlled Semiconducting Single-Walled Carbon Nanotubes, W. Song, C. Jeon, Y. S. Kim, Y. T. Kwon, D. S. Jung, S. W. Jang, W. C. Choi, J. S. Park, R. Saito, C. Y. Park, ACS Nano 4, 1012-1018, (2010).
  91. Resonance Raman spectroscopy of the radial breathing modes in carbon nanotubes, P. T. Araujo, P. B. C. Pesce, M. S. Dresselhaus, K. Sato, R. Saito, A. Jorio, Physica E 42, 1251-1261, (2010).
  92. Raman and fluorescence spectroscopic studies of DNA-dispersed double walled carbon nanotube solution, J. H. Kim, M. Kataoka, D. Shimamoto, H. Muramatsu, Y. C. Jung, T. Hayashi, Y. A. Kim, M. Endo, J. S. Park, R. Saito, M. Terrones, M. S. Dresselhaus, ACS Nano 4, 1060-1066, (2010).
  93. Perspectives on carbon nanotubes and graphene Raman spectroscopy, M. S. Dresselhaus, A. Jorio, M. Hofmann, G. Dresselhaus, R. Saito, Nano Lett. 10, 751-758, (2010).
  94. Calibrating the single-wall carbon nanotube resonance Raman intensity by high resolution transmission electron microscopy for a spectroscopy-based diameter distribution determination, P. B. C. Pesce, P. T. Araujo, P. Nikolaev, S. K. Doorn, K. Hata, R. Saito, M. S. Dresselhaus, A. Jorio, Appl. Phys. Lett. 96, 051910-1-3, (2010).
  95. Edge phonon state of mono- and few-layer graphene nanoribbons observed by surface and interference co-enhanced Raman spectroscopy, W. Ren, R. Saito, L. Gao, F. Zheng, Z. Wu, B. Liu, M. Furukawa, J. Zhao, Z. Chen, H. M. Cheng, Phys. Rev. B 81, 035412-1-7, (2010).
  96. Exciton energy calculations for single wall carbon nanotubes, R. Saito, K. Sato, P. T. Araujo, A. Jorio, G. Dresselhaus, M. S. Dresselhaus, Phys. Status Solidi B 246, 2581-2585, (2009).
  97. Kohn anomalies in graphene nanoribbons, K. Sasaki, M. Yamamoto, S. Murakami, R. Saito, M. S. Dresselhaus, K. Takai, T. Mori, T. Enoki, K. Wakabayashi, Phys. Rev. B 80, 155450-1-11, (2009).
  98. Diameter Dependence of the Dielectric Constant for the Excitonic Transition Energy of Single-Wall Carbon Nanotubes, P.T. Araujo, A. Jorio, M. S. Dresselhaus, K. Sato, R. Saito, Phys. Rev. Lett. 103, 146802-1-4, (2009).
  99. Fermi energy dependence of the G-band resonance Raman spectra of single-wall carbon nanotubes, J. S. Park, K. Sasaki, R. Saito, W. Izumida, M. Kalbac, H. Farhat, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. B 80, 081402(R)-1-4, (2009).
  100. Electrochemical charging of individual single-walled carbon nanotubes, M. Kalbac, H. Farhat, L. Kavan, J. Kong, K. Sasaki, R. Saito, M. S. Dresselhaus, ACS Nano 3, 2320-2328, (2009).
  101. Edge States of Zigzag Boron Nitride Nanoribbons, F. Zheng, K. Sasaki, R. Saito, W. Duan, B. Gu, J. Phys. Soc. Jpn. 78, 074713-1-6, (2009).
  102. SpinOrbit Interaction in Single Wall Carbon Nanotubes: Symmetry Adapted Tight-Binding Calculation and Effective Model Analysis, W. Izumida, K. Sato, R. Saito, J. Phys. Soc. Jpn. 78, 074707-1-13, (2009).
  103. Surface and Interference Coenhanced Raman Scattering of Graphene, L. Gao, W. Ren, B. Liu, R. Saito, Z. Wu, S. Li, C. Jinag, F. Li, H. Cheng, ACS Nano 3, 933-939, (2009).
  104. Resonant coherent phonon spectroscopy of single-walled carbon nanotubes, G. D. Sanders, C. J. Stanton, J.-H. Kim, K.-J. Yee, Y.-S. Lim, E. H. Haroz, L. G. Booshehri, J. Kono, R. Saito, Phys. Rev. B 79, 205434-1-19, (2009).
  105. Softening of the Radial Breathing Mode in Metallic Carbon Nanotubes, H. Farhat, K. Sasaki, M. Kalbac, M. Hofmann, R. Saito, M. S. Dresselhaus, J. Kong, Phys. Rev. Lett. 102, 126804-1-4, (2009).
  106. G' band Raman spectra of single, double and triple layer graphene, J. S. Park, A. Reina, R. Saito, J. Kong, G. Dresselhaus, M. S. Dresselhaus, Carbon 47, 1303-1310, (2009).
  107. A possible buckybowl-like structure of zeolite templated carbon, H. Nishihara, Q. H. Yang, P. X. Hou, M. Unno, S. Yamauchi, R. Saito, J. I. Paredes, A. Martinez-Alonso, J. M. D. Tascon, Y. Sato, T. Kyotani, Carbon 47, 1220-1230, (2009).
  108. Strong and stable photoluminescence from the semiconducting inner tubes within double walled carbon nanotubes, D. Shimamoto, H. Muramatsu, T. Hayashi, Y. A. Kim, M. Endo, J. S. Park, R. Saito, M. Terrones, M. S. Dresselhaus, Appl. Phys. Lett. 94, 083106-1-3, (2009).
  109. Pseudospin and deformation-induced gauge field in graphene, K. Sasaki, R. Saito, Prog. Theor. Phys. Suppl. 176, 253-278, (2008).
  110. Chirality dependent frequency shift of radial breathing mode in metallic carbon nanotubes, K. Sasaki, R. Saito, G. Dresselhaus, M. S. Dresselhaus, H. Farhat, J. Kong, Phys. Rev. B 78, 235405-1-11, (2008).
  111. Tight-binding description of the quasiparticle dispersion of graphite and few-layer graphene, A. Gruneis, C. Attaccalite, L. Wirtz, H. Shiozawa, R. Saito, T. Pichler, A. Rubio, Phys. Rev. B 78, 205425-1-16, (2008).
  112. Coherent phonon anisotropy in aligned single-walled carbon nanotubes, K. Kato, K. Ishioka, M. Kitajima, J. Tang, R.Saito, H. Petek, Nano Lett. 8, 3102-3108, (2008).
  113. Relation between peak structures of loss functions of single double-walled carbon nanotubes and interband transition energies, Y. Sato, M. Terauchi, Y. Saito, K. Sato, R. Saito, J. Electron Microsc. 57, 129-132, (2008).
  114. Resonant Raman Scattering of Smallest Single-Walled Carbon Nanotubes, Z. K. Tang, J. P. Zhai, Y. Y. Tong, X. J. Hu, R. Saito, C. T. Chan, P. Sheng, Phys. Rev. Lett. 101, 047402, (2008).
  115. Curvature-induced optical phonon frequency shift in metallic carbon nanotubes, K. Sasaki, R. Saito, G. Dresselhaus, M. S. Dresselhaus, H. Farhat, J. Kong, Phys. Rev. B 77, 245441-1-8, (2008).
  116. Magnetism as a mass term of the edge states in graphene, K. Sasaki, R. Saito, J. Phys. Soc. Japan 77, 054703-1-7, (2008).
  117. Aharanov-Bohm effect for the edge states of zigzag carbon nanotubes, K. Sasaki, M. Suzuki, R. Saito, Phys. Rev. B 77, 045138-1-6, (2008).
  118. Resonance Raman study of polyynes encapsulated in single-wall carbon nanotubes, L. M. Malard, D. Nishide, L. G. Dias, R. B. Capaz, A. P. Gomes, A. Jorio, C. A. Achete, R. Saito, Y. Achiba, H. Shinohara, M. A. Pimenta, Phys. Rev. B 76, 233412-1-4, (2007).
  119. Chirality dependence of many body effects of single wall carbon nanotubes, K. Sato, R. Saito, J. Jiang, G. Dresselhaus, M. S. Dresselhaus, Vibrational Spectroscopy 45, 89-94 (2007).
  120. Discontinuity in the family pattern of single-wall carbon nanotubes, K. Sato, R. Saito, J. Jiang, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. B 76, 195446, (2007).
  121. Dependence of Raman spectra G band intensity on metallicity of single-wall carbon nanotubes, K.K. Kim, J. S. Park, S. J. Kim, H. Z. Geng, K. H. An, C. M. Yang, K. Sato, R. Saito, Y. H. Lee, Phys. Rev. B 76, 205426, (2007).
  122. Raman probe for selective-wrapping of single-walled carbon nanotubes by DNA, Q. H. Yang, N. Gale, C. J. Oton, F. Li, A. Vaughan, R. Saito, I. S. Nandhakumar, H. M. Cheng, T. Brown, W. H. Loh, Nanotechnology 18, 405706, (2007).
  123. Finite length effects in DNA-wrapped carbon nanotubes, S. G. Chou, H. Son, M. Zheng, R. Saito, A. Jorio, G. Dresselhaus, M. S. Dresslhaus, Chem. Phys. Lett. 443, 328-332, (2007).
  124. Raman spectroscopy of double-walled carbon nanotubes treated with H2SO4, E. B. Barros, H. Son, Ge. G. Samsonidze, A. G. Souza Filho, R. Saito, Y. A. Kim, H. Muramatsu, T. Hayashi, M. Endo, J. Kong, M. S. Dresselhaus, Phys. Rev. B 76, 045425, (2007).
  125. Dependence of exciton transition energy of single-walled carbon nanotubes on surrounding dielectric materials, Y. Miyauchi, R. Saito, K. Sato, Y. Ohno, S. Iwasaki, T. Mizutani, J. Jiang, S. Maruyama, Chem. Phys. Lett. 442, 394-399, (2007).
  126. Local density of states at zigzag edge of carbon nanotubes and graphene, K. Sasaki, K. Sato, R. Saito, J. Jiang, S. Onari, Y. Tanaka, Phys. Rev. B 75, 235430, (2007).
  127. Electron-phonon coupling mechanism in two-dimensional graphite and single-wall carbon nanotubes, Ge. G. Samsonidze, E. B. Barros, R. Saito, J. Jiang, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. B 75, 155420, (2007).
  128. Length characterization of DNA-wrapped carbon nanotubes using Raman spectroscopy, S. G. Chou, H. Son, A. Jorio, R. Saito, M. Zheng, G. Dresselhaus, and M. S. Dresselhaus, Appl. Phys. Lett. 90, 131109, (2007).
  129. Charge transport in carbon nanotubes: quantum effects of electron-phonon coupling, S. Roche, J. Jiang, L. E. F. Foa Torres, and R. Saito, J. Phys. Condes. Matter 19, 183203, (2007).
  130. Theory of Superconductivity of Carbon Nanotubes and Graphene, K. Sasaki, J. Jiang, R. Saito, S. Onari, and Y. Tanaka, J. Phys. Soc. Japan 76, 033702, (2007).
  131. Exciton Photophysics of Carbon Nanotubes, M. S. Dresselhaus, G. Dresselhaus, R. Saito, A. Jorio, Annu. Rev. Phys. Chem. 58, 719-747, (2007).
  132. Studying Disorder in Graphite-based Systems by Raman Spectroscopy, M. A. Pimenta, A. Jorio, L. G. Cancado, G. Dresselhaus, M. S. Dresselhaus, R. Saito, Phys. Chem. Chem. Phys. 9, 1276-1291, (2007).
  133. Chirality dependence of exciton effects in single-wall carbon nanotubes:Tight-binding model, J. Jiang, R. Saito, Ge. G. Samsonidze, A. Jorio, S. G. Chou, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 75, 035407, (2007).
  134. Exciton-photon, exciton-phonon matrix elements, and resonant Raman intensity of single-wall carbon nanotubes, J. Jiang, R. Saito, K. Sato, J. S. Park, Ge. G. Samsonidze, A. Jorio, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 75, 035405, (2007).
  135. Raman scattering from one-dimensional carbon systems, M. S. Dresselhaus, F. Villalpando-Paez, Ge. G. Samsonidze, S. G. Chou, G. Dresselhaus, J. Jiang, R. Saito, A. G. Souza-Filho, A. Jorio, M. Endo, Y. A. Kim, Physica E 37, 81, (2006).
  136. Raman resonance window of single-wall carbon nanotubes, J. S. Park, Y. Oyama, R. Saito, W. Izumida, J. Jiang, K. Sato, C. Fantini, A. Jorio, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. B 74, 165414, (2006).
  137. High energy-resolution electron energy-loss spectroscopy study of the electric structure of double-walled carbon nanotubes, Y. Sato, M. Terauchi, Y. Saito, R. Saito, J. Electron Microscopy 55, 137-142, (2006).
  138. Raman characterization of electronic transition energies of metallic single-wall carbon nanotube, H. Son, A. R. Cecco, Ge. G. Samsonidze, R. Saito, A. Jorio, M. S. Dresselhaus, J. Kong, Phys. Rev. B 74, 073406, (2006).
  139. Nanotube Coalescence-Inducing Mode: A Novel Vibrational Mode in Carbon Systems, M. Endo, Y. A. Kim, T. Hayashi, H. Muramatsu, M. Terrones, R. Saito, F. Villalpando, S. G. Chou, M. S. Dresselhaus, Small, 2, 1031-1036, (2006).
  140. Trigonal anisotropy in Graphite and Carbon nanotubes, R. Saito, J. Jiang, A. Grneis, K. Sato, Y. Oyama, Ge. G. Samsonidze, S. G. Chou, G. Dresselhaus, M. S. Dresselhaus, L. G. Cancado, C. Fantini, A. Jorio, M. A. Pimenta, Mol. Cryst. Liq. Cryst. 455, 287-294, (2006).
  141. D-band Raman intensity of graphitic materials as a function of laser energy and crystallite size, K. Sato, R. Saito, Y. Oyama, J. Jiang, L. G. Cançado, M. A. Pimenta, A. Jorio, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, Chem. Phys. Lett. 427, 117-121 (2006).
  142. Gauge field for edge state in graphene, K. Sasaki, S. Murakami, R. Saito, Journal of the Physical Society of Japan 75, 074713-1-8 (2006).
  143. Stimulated Raman scattering from individual single-wall carbon nanotubes, B. P. Zhang, K. Shimazaki, T. Shiokawa, M. Suzuki, K. Ishibashi, R. Saito, Appl. Phys. Lett. 88, 241101-1-3 (2006).
  144. Resonance Raman scattering in Br2-adsorbed double wall carbon nanotubes, A. G. Souza Filho, M. Endo, H. Muramatsu, T. Hayashi, Y. A. Kim, E. B. Barros, N. Akuzawa, Ge. G. Samsonidze, R. Saito, M. S. Dresselhaus, Phys. Rev. B 73, 235413-1-12 (2006).
  145. Resonance Raman study of linear carbon chains formed by the heat treatment of double-wall carbon nanotubes,C. Fantini, E. Cruz, A. Jorio, M.Terrones, H. Terrones, G. Van Lier, J-C Charlier, M. S. Dresselhaus, R. Saito, Y. A. Kim, T. Hayashi, H. Muramatsu, M. Endo, M. A. Pimenta, Phys. Rev. B 73, 193408-1-4 (2006).
  146. Mesoscopic transport in carbon nanotubes: nobel features, S. Latil, S. Roche, F. Triozon, J. Jiang, R. Saito, Phys. Status Solidi A 203, 1100-1104 (2006).
  147. Stabilization mechanism of edge states in graphene, K. Sasaki, M. Murakami, R. Saito, Appl. Phys. Lett. 88, 113110-1-3 (2006).
  148. Photoluminescence and population analysis of single walled carbon nanotubes produced by CVD and pulsed-laser vaporization methods,T. Okazaki, T. Saito, K. Matsuura, S. Ohshima, M. Yumura, Y. Oyama, R. Saito, S. Iijima, Chem. Phys. Lett. 420, 286-290 (2006).
  149. Carbon nanotube population analysis from Raman and photoluminescence intensities, A. Jorio, C. Fantini, M. A. Pimenta, D. A. Heller, M. S. Strano, M. S. Dresselhaus, Y. Oyama, J. Jiang, and R. Saito, Appl. Phys. Lett. 88, 023109-1-3 (2006).
  150. Photoluminescence intensity of single-wall carbon nanotubes, Y. Oyama, R. Saito, K. Sato, J. Jiang, Ge. G. Samsonidze, A. Gruneis, Y. Miyauchi, S. Maruyama, A. Jorio, G. Dresselhaus, and M.S. Dresselhause, Carbon 44, 873-879 (2006).
  151. Electron-phonon matrix elements in single-wall carbon nanotubes, J. Jiang, R. Saito, Ge. G. Samsonidze, S. G. Chou, A. Jorio, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 72, 235408-1-11 (2005).
  152. Dual Raman Features of Double Coaxial Carbon Nanotubes with N-Doped and B-Doped Multiwalls, Quan-Hong Yang, Peng-Xiang Hou, Masashi Unno, Seigo Yamauchi, Riichiro Saito, and Takashi Kyotani, Nano Lett. 5, 2465 -2469 (2005).
  153. Strain-Induced Interference Effects on the Resonance Raman Cross Section of Carbon Nanotubes, A. G. Souza Filho, N. Kobayashi, J. Jiang, A. Gruneis, R. Saito, S. B. Cronin, J. Mendes Filho, Ge. G. Samsonidze, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. Lett. 95, 217403-1-4 (2005).
  154. A study of phonon-assisted exciton relaxation dynamics for a (6,5) enriched DNA-wrapped single walled carbon nanotube sample, S. G. Chou, M. F. DeCamp, J. Jiang, Ge. G. Samsonidze, E. B. Barros, F. Plentz~Filho, A. Jorio, M. Zheng, G. B. Onoa, E.~D. Semke, A. Tokmakoff, R. Saito, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. B 72, 195415-1-8 (2005).
  155. Cutting lines near the Fermi energy of single-wall carbon nanotubes, R. Saito, K. Sato, Y. Oyama, J. Jiang, Ge. G. Samsonidze, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 72, 153413-1-4 (2005).
  156. Infrared-Active Vibrational Modes of Single-Walled Carbon Nanotubes, U. J. Kim, X. M. Liu, C. A. Furtado, G. Chen, R. Saito, J. Jiang, M. S. Dresselhaus, and P. C. Eklund, Phys. Rev. Lett. 95, 157402-1-4 (2005).
  157. Conductance and coherence lengths in disordered carbon nanotubes: Role of lattice defects and phonon vibrations, S. Roche, J. Jiang, F. Triozon, and R. Saito, Phys. Rev. B 72, 113410-1-4 (2005).
  158. Steplike dispersion of the intermediate-frequency Raman modes in semiconducting and metallic carbon nanotubes, C. Fantini, A. Jorio, M. Souza, R. Saito, Ge. G. Samsonidze, M. S. Dresselhaus, and M. A. Pimenta, Phys. Rev. B 72, 085446-1-5 (2005).
  159. Quantifying carbon-nanotube species with resonance Raman scattering, A. Jorio, A. P. Santos, H. B. Ribeiro, C. Fantini, M. Souza, J. P. M. Vieira, C. A. Furtado, J. Jiang, R. Saito, L. Balzano, D. E. Resasco, and M. A. Pimenta, Phys. Rev. B 72, 075207-1-5 (2005).
  160. Quantum Decoherence in Carbon Nanotubes due to Electron-Phonon Coupling, S. Roche, J. Jiang, F. Triozon, and R. Saito, Phys. Rev. Lett. 95, 076803-1-4 (2005).
  161. Recent advances in carbon nanotube photophysics, M.S. Dresselhaus, Ge.G. Samsonidze, S.G. Chou, G. Dresselhaus, J. Jiang, R. Saito, and A. Jorio, Physica E 29, 443-446 (2005).
  162. Raman Spectroscopy of Carbon Nanotubes, M. S. Dresselhaus, G. Dresselhaus, R. Saito, and A. Jorio, Physics Reports 409, 47-99 (2005).
  163. Large-scale separation of metallic and semiconducting single-wall carbon nanotubes, Y. Maeda, S. Kimura, M. Kanda, Y. Hirashima, T. Hasegawa, T. Wakahara, Y. Lian, T. Nakahodo, T. Tsuchiya, T. Akasaka, J. Lu, S. Nagase, S. Kazaoui, N. Minami, T. Shimizu, H. Tokumoto, and R. Saito, J. Am. Chem. Soc. 127, 10287-10290, (2005).
  164. Intensity of the resonance Raman excitation spectra of single-wall carbon nanotubes, J. Jiang, R. Saito, A. Gruneis, S. G. Chou, Ge. G. Samsonidze, A. Jorio, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 71, 205420-1-13 (2005).
  165. Controlling edge states of zigzag carbon nanotubes by the Aharonov-Bohm flux, K. Sasaki, S. Murakami, R. Saito, Y. Kawazoe, Phys. Rev. B 71, 195401-1-5 (2005).
  166. Local energy gap in deformed carbon nanotubes, K. Sasaki, Y. Kawazoe, and R. Saito, Prog. Theor. Phys. 113, 463-480, (2005).
  167. Phonon-assisted excitonic recombination channels observed in DNA-wrapped carbon nanotubes using Photoluminescence spectroscopy, S. G. Chou, F. Plentz Filho, J. Jiang, R. Saito, D. Nezich, H. B. Ribeiro, A. Jorio, M. A. Pimenta, Ge. G. Samsonidze, A. P. Santos, M. Zheng, G. B. Onoa, E. D. Semke, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. Lett. 94, 127402-1-4, (2005).
  168. Origin of 2450cm^{-1} Raman bands in HOPG, single-wall and double-wall carbon nanotubes, T. Shimada, T. Sugai, C. Fantini, M. Souza, L. G. Canccado, A. Jorio, M. A. Pimenta, R. Saito, A. Gruneis, G. Dresselhaus, M. S. Dresselhaus, Y. Ohno, T. Mizutani, and H. Shinohara, Carbon 43, 1049-1054, (2005)
  169. Resonance Raman spectroscopy (n,m) dependent effects on the Resonance Raman Spectroscopy for small diameter single-wall carbon nanotubes, A. Jorio, C. Fantini, M.A. Pimenta, R.B. Capaz, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, J. Jiang, N. Kobayashi, A. Gruneis, R. Saito, Phys. Rev. B 71, 075401-1-11, (2005).
  170. Photoexcited electron relaxation processes in single wall carbon nanotubes, J. Jiang, R. Saito, A. Gruneis, S. G. Chou, Ge. G. Samsonidze, A. Jorio, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 71, 045417-1-9, (2005).
  171. Determination of nanotubes properties by Raman spectroscopy, A. Jorio, R. Saito, G. Dresselhaus, and M. S. Dresselhaus, Phil. Trans. R. Soc. Lond. A 362, 2311-2336, (2004).
  172. One-dimensional character of combination modes in the resonance Raman scattering of carbon nanotubes, C. Fantini, A. Jorio, M. Souza, L. O. Ladeira,M. A. Pimenta, A. G. Souza Filho, R. Saito, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. Lett. 93, 087401-1-4, (2004).
  173. Fractional Flux Periodicity in doped carbon nanotubes, K. Sasaki, S. Murakami, and R. Saito, Phys. Rev. B 70, 233406-1-4, (2004).
  174. Family behavior of the optical transition energies in single-wall carbon nanotubes of smaller diameters, Ge. G. Samsonidze, R. Saito, N. Kobayashi, A. Gruneis, J. Jiang, A. Jorio, S. G. Chou, G. Dresselhaus, and M. S. Dresselhaus, Appl. Phys. Lett. 85, 5703-5705, (2004).
  175. Re-parameterization Invariance in Fractional Flux Periodicity, S. Murakami, K. Sasaki, and R. Saito, J. Phys. Soc. Japan 73, 3231-3234, (2004).
  176. Optical characterization of DNA wrapped Carbon Nanotube Hybrids, G. S. Chou, H. B. Ribeiro, E. Barros, A. P. Santos, D. Nazich, Ge. G. Samsonidze, C. Fantini, M. A. Pimenta, A. Jorio, F. Plentz Filho, M. S. Dresselhaus, G. Dresselhaus, R. Saito, M. Zheng, G. B. Onoa, E. D. Semke, A. K. Swan, M. S. Unlu, and B. B. Goldberg, Chem. Phys. Lett. 397, 296-301, (2004).
  177. Optical absorption matrix element in single-wall carbon nanotubes, J. Jiang, R. Saito, A. Grueneis, G. Dresselhaus, and M. S. Dresselhaus, Carbon 42, 3169-3176, (2004).
  178. Fractional flux periodicity of a twisted planar square lattice , K. Sasaki, Y. Kawazoe, and R. Saito, Phys. Lett. A 329, 148-154, (2004).
  179. Single and double resonance Raman G-band processes in carbon nanotubes}, M. Souza, A. Jorio, C. Fantini, B. R. A. Neves, M. A. Pimenta, R. Saito, A. Ismach, E. Joselevich, V. W. Brar, Ge. G. Samsonidze, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 69, 241403(R)-1-4, (2004).
  180. Interband optical transitions in left and right handed single wall carbon nanotubes, Ge. G. Samsonidze, A. Grueneis, R. Saito, A. Jorio, M. A. Pimenta, A. G. Souza Filho, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 69, 205402-1-11, (2004).
  181. Stokes and anti-Stokes Raman spectra of small-diameter isolated carbon nanotubes, A. G. Souza Filho, S. G. Chou, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, L. An, J. Liu, A. K. Swan, M. S. Unlu, B. B. Goldberg, A. Jorio, A. Gruneis, and R. Saito, Phys. Rev. B 69, 115428-1-8, (2004).
  182. Anisotropy in the Raman spectra of nanographite ribbons, L. G. Canccado, M. A. Pimenta, A. Jorio, R. A. Neves, G. Medeiros-Ribeiro, T. Enoki, Y. Kobayashi, K. Takai, K. Fukui, M. S. Dresselhaus, and R. Saito, Phys. Rev. Lett. 93, 047403-1-4, (2004).
  183. Electron-phonon interaction and relaxation time in graphite, J. Jiang, R. Saito, A. Grueneis, G. Dresselhaus, and M. S. Dresselhaus, Chem. Phys. Lett. 392, 383-389, (2004).
  184. Fractional flux periodicity in tori made of square lattice, K. Sasaki, Y. Kawazoe, R. Saito, Prog. Theor. Phys. 111, 763-780, (2004).
  185. Advances in single nanotube spectroscopy: Raman spectra from cross-polarized light and chirality dependence of Raman frequencies, A. Jorio, M. A. Pimenta, C. Fantini, M. Souza, A. G. Souza Filho, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, R. Saito, Carbon 42, 1067-1069, (2004).
  186. Carbon Nanotube Photophysics, A. Jorio, R. Saito, T. Hertel, R. B. Weisman, G. Dresselhaus, M. S. Dresselhaus, Bulletin of Materials Science 29, 276-280, (2004).
  187. Resonance Raman spectra of carbon nanotube bundles observed by perpendicular polarized light, A. Grueneis, R. Saito, J. Jiang, Ge. G. Samsonidze, M. A. Pimenta, A. Jorio, A. G. Souza Filho, G. Dresselhaus, M. S. Dresselhaus, Chem. Phys. Lett. 387, 301-306, (2004).
  188. Optical absorption of graphite and single wall carbon nanotubes, R Saito, A. Grueneis, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, A. Jorio, L. G. Canccado, M. A. Pimenta,A. G. Souza Filho, Appl. Phys. A 78, 1099-1105, (2004).
  189. Aharonov-Bohm effect in higher genus materials, K. Sasaki, Y. Kawazoe, R Saito, Phys. Lett. A 321, 369-375, (2004).
  190. The concept of cutting lines in carbon nanotube science, Ge. G. Samsonidze, R Saito, A. Jorio, M. A. Pimenta, A. G. Souza Filho, and A. Gruneis, G. Dresselhaus, M. S. Dresselhaus,J. Nanosicence Nanotechnology 3, 431-458, (2003).
  191. Double resonance Raman spectroscopy of single-wall carbon nanotubes, R Saito, A Gruneis, Ge G Samsonidze, V W Brar, G Dresselhaus, M S Dresselhaus, A Jorio, L G Cancado, C Fantini, M A Pimenta and A G Souza Filho, New J. Phys. 5, 157.1-15, (2003).
  192. Characterizing carbon nanotube samples with resonance Raman scattering, A Jorio, M A Pimenta, A G Souza Filho, R Saito, G Dresselhaus and M S Dresselhaus, New J. Phys. 5, 139.1-17, (2003).
  193. Raman spectroscopy for probing chemically/physically induced-phenomena in carbon nanotubes, A. G. Souza Filho, A. Jorio, Ge. G. Samsonidze, G. Dresselhaus, R. Saito, M. S. Dresselhaus, Nanotechnology 14, 1130-1139, (2003).
  194. Optical characterization of Er-implanted ZnO films formed by sol-gel method, T. Fukudome, A. Kaminaka, H. Isshiki, R. Saito, S. Yugo, T. Kimura, Nucl. Instr. and Meth. in Phys. Res. B 206, 287-290, (2003).
  195. Inhomogeneous optical absorption around the K point in graphite and carbon nanotubes, A. Grueneis, R. Saito, Ge. G. Samsonidze, T. Kimura, M. A. Pimenta, A. Jorio, A. G. Souza Filho, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 67, 165402-1-7, (2003).
  196. Resonance Raman Spectra of Carbon Nanotubes by Cross-Polarized Light, A. Jorio, M. A. Pimenta, A. G. Souza Filho, Ge. G. Samsonidze, A. K. Swan, M. S. Unlu, B. B. Goldberg, R. Saito, G. Dresselhaus, M. S. Dresselhaus, Phys. Rev. Lett, 90, 107403-1-4, (2003).
    R. Saito moved to Tohoku University on March 1st 2003.
  197. Science and Applications of Single-Nanotube Raman Spectroscopy, M. S. Dresselhaus, G. Dresselhaus, A. Jorio, A. G. Souza Filho, Ge. G. Samsonidze, R. Saito, J. Nanoscience and Nanotechnology 3, 19-37, (2003).
  198. Resonant Raman scattering on one-dimensional systems, M. S. Dresselhaus, G. Dresselhaus, A. M. Rao, A. Jorio, A. G. Souza Filho, Ge. G. Samsonidze, R. Saito, Indian Journal of Physics 77B, 75-99, (2003).
  199. Nanowires and Nanotubes, M. S. Dresselhaus, Y.-M. Lin, O. Rabin, A. Jorio, A. G. Souza Filho, M. A. Pimenta, R. Saito, G e. G. Samsonidze, and G. Dresselhaus, Mater. Sci. Eng. C 23, 129-140 (2003).
  200. Competing spring constant versus double resonance effects on the properties of dispersive modes in isolated single-wall nanotubes, A. G. Souza Filho, A. Jorio, Ge. G. Samsonidze, G. Dresselhaus, M. A. Pimenta, M. S. Dresselhaus, A. K. Swan, M. S. Unlu, B. B. Goldberg, and R. Saito, Phys. Rev. B 67, 035427-1-7 (2003).
  201. Raman spectra of lithium doped single-walled 0.4 nm carbon nanotubes, J. T. Ye, Z. M. Li, Z. K. Tang, and R. Saito, Phys. Rev. B 67, 113404-1-4 (2003).
  202. Phonon trigonal warping effect in graphite and carbon nanotubes, Ge. G. Samsonidze, R. Saito, A. Jorio, A. G. Souza Filho, A. Grueneis, M. A. Pimenta, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. Lett. 90, 027403-1-4 (2003).
  203. Single Nanotube Raman Spectroscopy, M. S. Dresselhaus, G. Dresselhaus, A. Jorio, A. G. Souza Filho, and R. Saito, Accounts of Chemical Research 35, 1070-1078 (2002)
  204. Double resonance Raman spectra in disordered graphite and single wall carbon nanotubes, R. Saito, A. Grueneis, L. G. Cancado, M. A. Pimenta, A. Jorio, A. G. Souza Filho, G. Dresselhaus and M. S. Dresselhaus, Mol. Cryst. Liq. Cryst. 387, 63-72, (2002).
  205. Raman spectroscopyof nanoscale carbons and of an isolated carbon nanotube, M. S. Dresselhaus, A. Jorio, A.G. Souza Filho, G. Dresselhaus, R. Saito and M. A. Pimenta, Mol. Cryst. Liq. Cryst. 387, 21-29 (2002).
  206. Second-order harmonic and combination modes in graphite, single wall carbon nanotube bundles, and isolated single wall carbon nanotubes V. W. Brar, Ge. G. Samsonidze, M. S. Dresselhaus, G. Dresselhaus, R. Saito, A. K. Swan, M. S. Unlu, B. B. Goldberg, A. G. Souza Filho, A. Jorio Phys. Rev. B 66, 155418 (2002).
  207. Radial breathing modes of multiwalled carbon nanotubes X. Zhao, Y. Ando, L-C. Qin, H. Kataura, Y. Maniwa, R. Saito Chem. Phys. Lett. 361, 169 (2002).
  208. Multiple splitting of G-band modes from individual multiwalled carbon nanotubes X. Zhao, Y. Ando, L-C. Qin, H. Kataura, Y. Maniwa, R. Saito Appl. Phys. Lett. 81, 2550 (2002).
  209. Linewidth of the Raman features of individual single-wall carbon nanotubes A. Jorio, C. Fantini, M. S. S. Dantas, M. A. Pimenta, A. G. Souza Filho, Ge. G. Samsonidze, V. W. Brar, G. Dresselhaus, M. S. Dresselhaus, A. K. Swan, M. S. Unlu, B. B. Goldberg, R. Saito, Phys. Rev. B 66, 115411 (2002).
  210. Raman spectroscopy on one isolated carbon nanotube M. S. Dresselhaus, A. Jorio, A. G. Souza Filho, G. Dresselhaus and R. Saito, Physica 323, 15 (2002).
  211. Dispersive Raman spectra observed in graphite and single wall carbon nanotubes R. Saito, A. Jorio, A. G. Souza Filho, e, A. Grueneis, M. A. Pimenta, G. Dresselhaus and M. S. Dresselhaus, Physica 323, 100 (2002).
  212. Characteristic Raman spectra of multiwalled carbon nanotubes X. Zhao, Y. Ando, L. -C. Qin, H. Kataura, Y. Maniwa and R. Saito, Physica 323, 265 (2002).
  213. Raman spectroscopy on isolated single wall carbon nanotubes M. S. Dresselhaus, G. Dresselhaus, A. Jorio, A. G. Souza Filho, R. Saito, Carbon 40, 2043 (2002).
  214. Stokes and anti-Stokes double resonance Raman scattering in two-dimensional graphite L. G. Cancado, M. A. Pimenta, R. Saito, A. Jorio, L. O. Ladeira, A. Grueneis, A. G. Souza-Filho, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 66, 035415 (2002).
  215. First and Second-Order Resonance Raman Process in Graphite and Single Wall Carbon Nanotubes R. Saito, A. Jorio, A. G. Souza Filho, G. Dresselhaus, M. S. Dresselhaus, A. Grueneis, L. G. Cancaado, M. A. Pimenta, Jpn. J. Appl. Phys, 41, 4878-4882 (2002).
  216. Determination of two-dimensional phonon dispersion relation of graphite by Raman spectroscopy, A. Gruneis, R. Saito, T. Kimura, L. G. Cancado, M. A. Pimenta, A. Jorio, A. G. Souza Filho, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 65, 155405-1-7 (2002).
  217. Polarized resonant Raman study of isolated single-wall carbon nanotubes: Symmetry selection rules, dipolar and multipolar antenna effects, A. Jorio, A. G. Souza Filho, V. W. Brar, A. K. Swan, M. S. Unlu, B. B. Goldberg, A. Righi, J. H. Hafner, C. M. Lieber, R. Saito, G. Dresselhaus, and M.S. Dresselhaus, Phys. Rev. B 65, 121402(R)1-4 (2002).
  218. G-band resonant Raman study of 62 isolated single-wall carbon nanotubes, A. Jorio, A. G. Souza Filho, G. Dresselhaus, M. S. Dresselhaus, A. K. Swan, M. S. Unlu, B. B. Goldberg, M. A. Pimenta, J. H. Hafner, C. M. Lieber, and R. Saito, Phys. Rev. B 65, 155412-1-9 (2002).
  219. Probing the electronic trigonal warping effect in individual single-wall carbon nanotubes using phonon spectra, A. G. Souza Filho, A. Jorio, Ge. G. Samsonidze, G. Dresselhaus, M. S. Dresselhaus, Anna K. Swan, M. S. Dresselhaus, B. B. Goldberg, f, R. Saito, J. H. Hafner, C. M. Lieber, and M. A. Pimenta, Chem. Phys. Lett. 354, 62-68 (2002).
  220. Raman studies on 0.4 nm diameter single wall carbon nanotubes, A. Jorio, A. G. Souza Filhoa, G. Dresselhaus, M. S. Dresselhausa, A. Righi, F. M. Matinaga, M. S. S. Dantas, M. A. Pimenta, J. Mendes Filho, Z. M. Li, Z. K. Tang, and R. Saito, Chem. Phys. Lett. 351, 27-34 (2002).
  221. Anomalous two-peak G'-band Raman effect in one isolated single-wall carbon nanotube, A. G. Souza Filho A. Jorio, A. K. Swan, M. S. Unlu, B. B. Goldberg, R. Saito, J. H. Hafner, C. M. Lieber, M. A. Pimenta, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 65, 085417-1-8 (2002).
  222. Probing phonon dispersion relations of graphite by double resonance Raman scattering R. Saito, A. Jorio, A. G. Souza Filho, G. Dresselhaus, M. S. Dresselhaus, and M. A. Pimenta, Phys. Rev. Lett. 88, 027401 (2002).
  223. Effect of quantized electronic states on the dispersive Raman features in individual single-wall carbon nanotubes A. G. Souza Filho, A. Jorio, G. Dresselhaus, M. S. Dresselhaus, R. Saito, A. K. Swan, M. S. Unlu, B. B. Goldberg, J. H. Hafner, C. M. Lieber, and M. A. Pimenta, Phys. Rev. B 65, 035404-1-6 (2001).
  224. Magnetoresistance of Carbon Nanotubes: From Molecular to Mesoscopic Fingerprints, S. Roche and R. Saito, Phys. Rev. Lett. 87, 246803 (2001).
  225. Anomalous potential barrier of double-wall carbon nanotube, R. Saito, R. Matsuo, T. Kimura, G. Dresselhaus, and M. S. Dresselhaus, Chem. Phys. Lett. 348, 187-193 (2001).
  226. Theoretical analysis of the diffusive ion in biased plasma enhanced diamond chemical vapor deposition, R. Saito, J. Sano, N. Ishigaki, T. Kimura, and S. Yugo, J. Appl. Phys. 90, 2559-2564 (2001).
  227. Polarized Absorption Spectra of Single-Walled 4 A Carbon Nanotubes Aligned in Channels of an AlPO4-5 Single Crystal, Z. M. Li, Z. K. Tang, H. J. Liu, N. Wang, C. T. Chan, R. Saito, S. Okada, G. D. Li, J. S. Chen, N. Nagasawa, and S. Tsuda, Phys. Rev. Lett. 87, 127401 (2001).
  228. Chirality-dependent G-band Raman intensity of carbon nanotubes, R. Saito, A. Jorio, J. H. Hafner, C. M. Lieber, M. Hunter, T. McClure, G. Dresselhaus, and M. S. Dresselhaus, Phys. Rev. B 64, 085312-1-7 (2001).

There are ramaining 74 papers from 1985-2001. Get a full list of publications (pdf 300kB) since 1985.


R. Saito