論文リスト

1. 原著論文
2. 日本語の解説

1. 原著論文

1. H. Kim, S. Park, R. Okuyama, K. Kyhm, M. Eto, R. A. Taylor, G. Nogues, L. S. Dang, M. Potemski, K. Je, J. Kim, J. Kyhm, and J. Song, "Light Controlled Optical Aharhonov-Bohm Oscillations in a Single Quantum Ring," NANO Letters 18, 6188 (2018).
2. R. Okuyama, W. Izumida, and M. Eto, "Topological Phase Transition in Metallic Single-Wall Carbon Nanotube", Journal of the Physical Society of Japan 86, 013702/1-4 (2017).
3. A. Iwasaki and M. Eto, "Enhanced current fluctuation in Coulomb blockade regime of semiconductor quantum dot", Journal of Physics: Conference Series, in press.
4. T. Matsunaga, R. Sakano, and M. Eto, "Enhanced current fluctuation in Coulomb blockade regime of semiconductor quantum dot", Journal of Physics: Conference Series, in press.
5. H. D. Kim, R. Okuyama, K. Kyhm, M. Eto, R. A. Taylor, A. L. Nicolet, M. Potemski, G. Nogues, L. S. Dang, K. Je, J. Kim, J. Kyhm, K. H. Yoen, E. H. Lee, J. Y. Kim, I. K. Han, W. Choi, and J. Song, "Observation of a Biexciton Wigner Molecule by Fractional Optical Aharonov-Bohm Oscillations in a Single Quantum Ring," NANO Letters 16, 27 (2016).
6. S. Souma, A. Sawada, H. Chen, Y. Sekine, M. Eto, and T. Koga, "Spin Blocker Using the Interband Rashba Effect in Symmetric Double Quantum Wells," Physical Review Applied 4, 034010 (2015).
7. T. Yokoyama, M. Eto, and Yu. V. Nazarov, "Anomalous Josephson effect by spin-orbit interaction and Zeeman effect in semiconductor nanowires," Physical Review B 89, 195407 (2014).
8. S. Okubo, M. Eto, P. Degenfeld-Schonburg, and M. J. Hartmann, "Study of coupled QED-cavities using the self-consistent Mori projector method," Journal of Physics: Conference Series 568, 012014 (2014).
9. T. Yokoyama, M. Eto, and Yu. V. Nazarov, "Critical current in semiconductor nanowire Josephson junctions in the presence of magnetic field," Journal of Physics: Conference Series 568, 052035 (2014).
10. T. Yokoyama, M. Eto, and Yu. V. Nazarov, "Josephson Current through Semiconductor Nanowire with Spin-Orbit Interaction in Magnetic Field," Journal of the Physical Society of Japan 82, 054703 (2013).
11. R. Okuyama, M. Eto, and T. Brandes, "Lasing and antibunching of optical phonons in semiconductor double quantum dots," New Journal of Physics 15, 083032 (2013).
12. R. Okuyama, M. Eto, and T. Brandes, "Optical Phonon Lasing in Semiconductor Double Quantum Dots," Journal of the Physical Society of Japan 82, 013704 (2013).
13. T. Yokoyama and M. Eto, "Generation of spin-polarized current using multiterminal quantum dot with spin-orbit interaction," Physical Review B 86, 205305 (2012).
14. R. Okuyama, M. Eto, and H. Hyuga, "Magnetoluminescence from trion and biexciton in type-II quantum dot," Nanoscale Research Letters 6, 351/1-6 (2011).
15. T. Yokoyama and M. Eto, "Efficient spin filter using multi-terminal quantum dot with spin-orbit interaction," Nanoscale Research Letters 6, 436/1-7 (2011).
16. R. Yoshii and M. Eto, "Analytical expression of Kondo temperature in quantum dot embedded in Aharonov-Bohm ring," Nanoscale Research Letters 6, 604/1-5 (2011).
17. R. Okuyama, M. Eto, and H. Hyuga, "Optical Aharonov-Bohm Effect on Wigner Molecules in Type-II Semiconductor Quantum Dots," Physical Review B 83, 195311 (2011).
18. M. Eto and H. Kamimura, "Impurity Bands in Group-IV Semiconductors," in Comprehensive Semiconductor Science and Technology, eds. P. Bhattacharya, R. Fornari, and H. Kamimura (Elsevier, 2011), Vol.1, pp.77-112.
19. A. Ueda, O. Entin-Wohlman, M. Eto, and A. Aharony, "Phonon Spectroscopy by Electric Measurements of Coupled Quantum Dots," Physical Review 82, 245317/1-9 (2010).
20. R. Yoshii and M. Eto, "Scaling analysis of Kondo screening cloud in a mesoscopic ring with an embedded quantum dot," Physical Review B 83, 165310/1-14 (2011).
21. M. Eto and T. Yokoyama, "Quantum Dot Spin Filter in Resonant Tunneling and Kondo Regimes," Journal of the Physical Society of Japan 79, 123711/1-4 (2010).
22. S. Miyamoto, O. Moutanabbir, T. Ishikawa, M. Eto, E. E. Haller, K. Sawano, Y. Shiraki, and K. M. Itoh, "Excitonic Aharonov-Bohm effect in isotopically pure $^{70}$Ge/Si self-assembled type-II quantum dots," Physical Review B 82, 073306/1-4 (2010).
23. R. Yoshii and M. Eto, "Magnetic flux and gate-voltage dependence of Kondo effect in quantum dot embedded in Aharonov-Bohm ring," Physica E 42, 856-859 (2010).
24. T. Yokoyama and M. Eto, "Spin injection using tunable antidot potential in semiconductor heterostructure with spin-orbit interaction," Physica E 42, 956-959 (2010).
25. H. Morishita, L. S. Vlasenko, H. Tanaka, K. Semba, K. Sawano, Y. Shiraki, M. Eto, and K. M. Itoh, "Electrical detection and magnetic-field control of spin states in phosphorus-doped silicon," Physical Review B 80, 205206/1-6 (2009).
26. T. Yokoyama and M. Eto, "Enhanced spin Hall effect by tuning antidot potential: Application to spin filter," Physical Review B 80, 125311/1-11 (2009).
27. M. Eto and T. Yokoyama, "Enhanced spin Hall effect in semiconductor heterostructures with artificial potential," Journal of the Physical Society of Japan 78, 073710/1-4 (2009).
28. T. Homma and M. Eto, "Numerical study of Coulomb oscillation and phase shift through quantum dots in a magnetic field," Journal of Physics: Conference Series 150, 022028/1-4 (2009).
29. A. Ueda and M. Eto, "Electrically detected phonon spectroscopy in double quantum dots," Journal of Physics: Conference Series 150, 022093/1-4 (2009).
30. R. Yoshii and M. Eto, "Magnetic-flux-dependent Kondo effect in a quantum dot embedded in an Aharonov-Bohm ring," Journal of Physics: Conference Series 150, 022104/1-4 (2009).
31. R. Yoshii and M. Eto, "Scaling Analysis for Kondo Effect in Quantum Dot Embedded in Aharonov-Bohm Ring," Journal of the Physical Society of Japan 77, 123714/1-4 (2008).
32. D. Matsubayashi and M. Eto, "Kondo effect in quantum dots coupled with noncollinear ferromagnetic leads," in "Controllable Quantum States," eds. H. Takayanagi, J. Nitta and H. Nakano (World Scientific, 2008) 227-232.
33. D. Goto and M. Eto, "Theoretical study of electronic states and spin operation in coupled quantum dots," in "Controllable Quantum States," eds. H. Takayanagi, J. Nitta and H. Nakano (World Scientific, 2008) 239-244.
34. M. Eto, T. Hayashi, Y. Kurotani and H. Yokouchi, "Creation of spin-polarized current using quantum point contacts and its detection," in "Controllable Quantum States," eds. H. Takayanagi, J. Nitta and H. Nakano (World Scientific, 2008) 301-306.
35. A. Ueda and M. Eto, "Nonequilibrium transport in Aharonov-Bohm interferometer with electron-phonon interaction," in "Controllable Quantum States," eds. H. Takayanagi, J. Nitta and H. Nakano (World Scientific, 2008) 327-332.
36. K. Saito and M. Eto, "Analytical expression of leakage current through double quantum dots in Pauli spin blockade," Physica E 40, 1149-1151 (2008).
37. A. Ueda and M. Eto, "Nonequilibrium Transport in T-shaped Double Quantum Dots: Phonon Emission without Dephasing," Physica E 40, 1602-1604 (2008).
38. T. Ishikawa and M. Eto, "Theoretical study of optical excitation in quantum dots by circularly polarized light," Physica Status Solidi (c) 5, 374-377 (2008).
39. D. Matsubayashi and M. Eto, "Kondo effect in quantum dots coupled to ferromagnetic leads: effect of noncollinear magnetization," Proceedings of 28th International Conference on the Physics of Semiconductors (Vienna, 2006; AIP conference proceedings 893), eds. W. Jantsch and F. Schaffler, 805-806.
40. A. Ueda and M. Eto, "Influence of Electron-Phonon Interaction on Fano Resonance in Aharonov-Bohm Interferometer," Proceedings of 28th International Conference on the Physics of Semiconductors (Vienna, 2006; AIP conference proceedings 893), eds. W. Jantsch and F. Schaffler, 839-840.
41. T. Otsuka, H. Aikawa, M. Eto, G. L. Khym, K. Kang, Y. Iye and S. Katsumoto, "Phase information from two-terminal conductance of quantum dot systems," Proceedings of 28th International Conference on the Physics of Semiconductors (Vienna, 2006; AIP conference proceedings 893), eds. W. Jantsch and F. Schaffler, 855-856.
42. A. Ueda and M. Eto, "Nonequilibrium transport through coupled quantum dots with electron-phonon interaction," New Journal of Physics 9, 119/1-14 (2007).
43. D. Matsubayashi and M. Eto, "Spin splitting and Kondo effect in quantum dots coupled to noncollinear ferromagnetic leads," Physical Review B 75, 165319/1-12 (2007).
44. H. Yokouchi and M. Eto, "Creation and detection of spin-polarized current using quantum point contact with spin-orbit interaction," Physica Status Solidi (c) 4, 557-559 (2007).
45. D. Goto and M. Eto, "Numerical simulation of spin-qubit operation in coupled quantum dots," Physica Status Solidi (c) 4, 554-556 (2007).
46. M. Eto, T. Hayashi, Y. Kurotani and H. Yokouchi, "Spin injection using quantum point contacts with spin-orbit interaction and its detection," Physica Status Solidi (c) 3, 4168-4171 (2006).
47. S. Katsumoto, H. Aikawa, M. Eto and Y. Iye, "Tunable Fano-Kondo effect in a quantum dot with an Aharonov-Bohm ring," Physica Status Solidi (c) 3, 4208-4213 (2006).
48. A. Ueda and M. Eto, "Resonant tunneling and Fano resonance in quantum dots with electron-phonon interaction," Physical Review B 73, 235353/1-12 (2006).
49. M. Eto, T. Hayashi and Y. Kurotani, "Spin Filter using Semiconductor Point Contacts with Spin-Orbit Interaction," in the proceedings of 24th International Conference on Low Temperature Physics, pp.1516-1517 (2006).
50. M. Eto and Y. Hada, "Kondo Effect in Silicon Quantum Dots with Valley Degeneracy," in the proceedings of 24th International Conference on Low Temperature Physics, pp.1382-1383 (2006).
51. T. Sato and M. Eto, "Numerical Studies of Kondo Effect in Multilevel Quantum Dots," in the proceedings of 24th International Conference on Low Temperature Physics, pp.1380-1381 (2006).
52. T. Sato and M. Eto, "Numerical Renormalization Group Studies of SU(4) Kondo Effect in Quantum Dots," Physica E 29, 652-655 (2005).
53. M. Eto, T. Hayashi and Y. Kurotani, "Spin Polarization at Semiconductor Point Contacts in Absence of Magnetic Field," Journal of the Physical Society of Japan 74, 1934-1937 (2005).
54. M. Eto, "Kondo Effect in Quantum Dots with Two Orbitals and Spin 1/2--Crossover from SU(4) to SU(2) Symmetry," in "Realizing Controllable Quantum States," eds. H. Takayanagi and J. Nitta (World Scientific, 2005) pp. 451-456.
55. A. Ueda and M. Eto, "Fano resonance in quantum dots with electron-phonon interaction," in the proceedings of 27th International Conference on the Physics of Semiconductors (Flagstaff, 2004) eds. J. Menendez and C. G. Van de Walle, pp. 1447-1448.
56. M. Eto, "SU(4) Kondo Effect in Quantum Dots with Two Orbitals and Spin 1/2," in the proceedings of 27th International Conference on the Physics of Semiconductors (Flagstaff, 2004) eds. J. Menendez and C. G. Van de Walle, pp. 821-822.
57. A. Ueda and M. Eto, "Dephasing by electron-phonon interaction in an AB ring with an embedded quantum dot," Physica Status Solidi (b) 242, 1219-1223 (2005).
58. Y. Hada and M. Eto, "Electronic States in Silicon Quantum Dot Devices," Physica Status Solidi (c), in press.
59. M. Eto, "Enhancement of Kondo Effect in Multilevel Quantum Dots," Journal of the Physical Society of Japan 74, 95-102 (2005).
60. M. Eto, "Kondo Effect in Quantum Dots near Orbital Degeneracy," Proceedings of the Second Quantum-Transport Nano-Hana International Workshop on Interacting Electron Systems in Quantum-Transport Devices, pp. 25-29 (IPAP Conference Series 5, Tokyo, 2004).
61. S. Sasaki, S. Amaha, N. Asakawa, M. Eto and S. Tarucha, "Enhanced Kondo Effect via Tuned Orbital Degeneracy in a Spin 1/2 Artificial Atom," Physical Review Letters 93, 017205/1-4 (2004).
62. Y. Hada and M. Eto, "Exchange Coupling in Silicon Double Quantum Dots," Japanese Journal of Applied Physics 43, 7329-7336 (2004).
63. M. Eto, T. Ashiwa and M. Murata, "Entanglement of Nuclear Spins in Spin-Blocked Quantum Dots," Physica E 22, 426-429 (2004).
64. K. Ueno and M. Eto, "Numerical Studies of Transport Properties through Point Contacts of Magnetic Metals," Physica E 22, 276-279 (2004).
65. M. Eto, T. Ashiwa and M. Murata, "Current-induced entanglement of nuclear spins in quantum dots," Journal of the Physical Society of Japan 73, 307 (2004).
66. Y. Hada and M. Eto, "Electronic States in Silicon Quantum Dots: Multivalley Artificial Atoms," Physical Review B 68, 155322 (2003).
67. T. Tasai and M. Eto, "Effects of Polaron Formation in Semiconductor Quantum Dots on Transport Properties," Journal of the Physical Society of Japan 72, 1495-1500 (2003).
68. K. Ueno and M. Eto, "Mean-Field Calculations of Transport Properties through Magnetic Point Contacts," Journal of the Physical Society of Japan 72, 1501-1509 (2003).
69. Y. Hada and M. Eto, "Size and shape dependence of electronic states in silicon quantum dots," Physica Status Solidi (c) 0, 1153-1156 (2003).
70. T. Tasai and M. Eto, "Effects of Polaron Formation on Electric Transport in Semiconductor Quantum Dots," in the proceedings of 26th International Conference on the Physics of Semiconductors (Edinburgh, 2002), eds. A. R. Long and J. H. Davies (Institute of Physics Publishing, Bristol and Philadelphia, 2002), H180.
71. T. Tasai and M. Eto, "Transport Properties of Quantum Dots with Strong Electron-Phonon Interaction," Physica E 17, 139-142 (2003).
72. M. Murata and M. Eto, "Influence of External Electrodes on Electronic States in Carbon Nanotubes," Physica E 17, 384-385 (2003).
73. Y. Hada and M. Eto, "Multi-valley Effect on Electronic States in Si Quantum Dots," Physica E 17, 24-25 (2003).
74. Y. Hada and M. Eto, "Electronic States and Spin Configurations in Silicon Quantum Dots," in "Toward the Controllable Quantum States," eds. by H. Takayanagi and J. Nitta (World Scientific, Singapore, 2003) pp.467-472.
75. A. Ueda, I. Baba, K. Suzuki and M. Eto, "Numerical Studies of Fano Resonance in Quantum dots Embedded in AB Rings," in proceedings of International Conference on Quantum Transport and Quantum Coherence, Journal of the Physical Society of Japan 72, Supplement A, 157-158, (2003).
76. M. Eto and Yu. V. Nazarov, "Multi-parameter scaling of the Kondo effect in quantum dots with an even number of electrons," Physical Review B 66, 153319-153322 (2002).
77. M. Eto and Yu. V. Nazarov, "Scaling analysis of the Kondo effect in quantum dots with an even number of electrons," Journal of Physics and Chemistry of Solids 63, 1527-1530 (2002).
78. K. Ueno, M. Eto and K. Kawamura, "Transport Properties through Atomic-Size Point Contacts of Multi-Band Metals," in the proceedings of 7th International Symposium on Foundations of Quantum Mechanics in the Light of New Technology (ISQM-Tokyo, 2001), eds. Y. A. Ono and K. Fujikaswa (World Scientific, Singapore, 2002), pp. 229-232.
79. M. Eto, "Kondo Effect in Quantum Dots with an Even Number of Electrons," in Nano-Physics & Bio-Electronics: A New Odyssey, eds. T. Chakraborty, F. Peeters and U. Sivan (Elsevier, 2002), chapter 6, pp.187-212.
80. K. Ueno, M. Eto and K. Kawamura, "Transport Properties through Atomic-Size Point Contacts of Multi-Band Metals," Journal of the Physical Society of Japan 71, 860-866 (2002).
81. K. Ueno, M. Eto and K. Kawamura, "Interband Scattering at Metallic Nano-junctions," Physica E 12, 684-687 (2002).
82. M. Eto and Yu. V. Nazarov, "Mean-field theory of the Kondo effect in quantum dots with an even number of electrons," Physical Review B 64, 85322-85332 (2001).
83. T. Aono and M. Eto, "Kondo Effect in Coupled Quantum Dots under Magnetic Fields," Physical Review B 64, 73307-73310 (2001).
84. M. Eto and Yu. V. Nazarov, "Kondo Effect in Semiconductor Quantum Dots with Almost Degenerate Levels," in the proceedings of the 25th International Conference on the Physics of Semiconductors, Osaka 2000, eds. N. Miura and T. Ando (Springer), pp.1043-1044.
85. T. Aono and M. Eto, "Magnetoconductance of Coupled Quantum Dots in the Kondo Region," in the proceedings of the 25th International Conference on the Physics of Semiconductors, Osaka 2000, eds. N. Miura and T. Ando (Springer), pp.1055-1056.
86. M. Eto, "Kondo Effect in Semiconductor Quantum Dots," in the proceedings of the 8th Asia-Pacific Physics Conference (World Scientific, Singapore, 2001), pp.99-104.
87. M. Eto and Yu. V. Nazarov, "Enhancement of Kondo Effect Due to Spin-Singlet-Triplet Competition in Quantum Dots," in Kondo Effect and Dephasing in Low-Dimensional Metallic Systems eds. V. Chandrasekhar, C. V. Haesendonck and A. Zawadowski (Kluwer, Dordrecht, 2001), pp.203-206.
88. S. De Franceschi, S. Sasaki, J. M. Elzerman, W. G. van der Wiel, M. Eto, S. Tarucha, and L. P. Kouwenhoven, "Electron Transport through Quantum Dots: an Unusual Kondo Effect" in Kondo Effect and Dephasing in Low-Dimensional Metallic Systems eds. V. Chandrasekhar, C. V. Haesendonck and A. Zawadowski (Kluwer, Dordrecht, 2001), pp.153-161.
89. M. Eto, "Electronic States and Transport Phenomena in Quantum Dot Systems," Japanese Journal of Applied Physics 40, 1929-1935 (2001).
90. S. Nakagawa, M. Eto and K. Kawamura, "Dynamic Behavior of Kink-Solitons at Junctions in Quantum-Dot Cellular Automata," Japanese Journal of Applied Physics 40, 2046-2049 (2001).
91. T. Aono and M. Eto, "Kondo Resonant Spectra in Coupled Quantum Dots," Physical Review B 63, 125327 (2001).
92. S. Nakagawa, M. Eto and K. Kawamura, "Kink-Solitons in Quantum-Dot Cellular Automata," Japanese Journal of Applied Physics 40, 538-545 (2001).
93. M. Eto and Yu. V. Nazarov, "Enhancement of Kondo Effect in Quantum Dots with an Even Number of Electrons," Physical Review Letters 85, 1306-1309 (2000).
94. S. Sasaki, S. De Franceschi, J. M. Elzerman, W. G. van der Wiel, M. Eto, S. Tarucha, and L. P. Kouwenhoven, "Kondo Effect in an Integer-Spin Quantum Dots" Nature 405, 764-767 (2000).
95. M. Eto, "Ground state energy fluctuations of interacting electrons in disordered quantum dots," Physica B 284-288, 1770-1771 (2000).
96. T. Aono and M. Eto, "Kondo Effect on the Transport Properties of Asymmetric Dimer of Quantum Dots" Physica B 284-288, 1768-1769 (2000).
97. M. Eto, "Correlation Effect on Ground State Energy Statistics in Disordered Quantum Dots," Physica Status Solidi (b) 218, 139-143 (2000).
98. T. Aono and M. Eto, "Electron Transport through Coupled Quantum Dots below the Kondo temperature," Journal of Low Temperature Physics 118 401-408 (2000).
99. Y. Funabashi, K. Ohtsubo, M. Eto and K. Kawamura, "Phase Relaxation and Non-Equilibrium Transport Properties through Multilevel Quantum Dot," Japanese Journal of Applied Physics 38, 388-391 (1999).
100. T. Aono, M. Eto and K. Kawamura, "Linear Conductance through Parallel Quantum Dot Dimer below the Kondo Temperature," Japanese Journal of Applied Physics 38, 315-318 (1999).
101. K. Kawamura and M. Eto, "Theory of Artificial Atoms and Molecules using Semiconductor Quantum Dots," Japanese Journal of Applied Physics 38, 366-371 (1999).
102. M. Eto, "Many-Body States in a Quantum Dot under High Magnetic Fields," Japanese Journal of Applied Physics 38, 376-379 (1999).
103. T. Aono, M. Eto and K. Kawamura, "Conductance through Quantum Dot Dimer Below the Kondo Temperature," Journal of the Physical Society of Japan 67, 1860-1863 (1998).
104. Y. Funabashi, K. Ohtsubo, M. Eto and K. Kawamura, "Dephasing Processes in Transport through Multi-Level Quantum Dot," Solid State Electronics 42, 1367-1371 (1998).
105. M. Eto, "Numerical Studies of Transport Properties through Artificial Atoms and Molecules," Solid State Electronics 42, 1373-1377 (1998).
106. M. Eto, "Exact Diagonal Calculations of Coulomb Oscillation in Quantum Dots," Physica Status Solidi (b) 205, 199-202 (1998).
107. A. Sano, M. Eto and H. Kamimura, "Theory of High Temperature Superconductivity in Cuprates: I. First Principles Cluster Calculations for the Electronic Structures of CuO₆ Octahedron and CuO₅ Pyramid," International Journal of Modern Physics B 11, 3733-3750 (1997).
108. L. P. Kouwenhoven, T. H. Oosterkamp, M. W. S. Danoesastro, M. Eto, D. G. Austing, T. Honda and S. Tarucha, "Excitation Spectra of Circular, Few-Electron Quantum Dots," Science 278, 1788-1792 (1997).
109. M. Eto, "Anomalous Temperature Dependence of Coulomb Oscillations at Nearly Degenerate Levels," Journal of the Physical Society of Japan 66, 2244-2247 (1997).
110. M. Eto, "Nonequilibrium Transport Properties through Parallel Quantum Dots," Japanese Journal of Applied Physics 36, 4004-4007 (1997).
111. M. Eto, "Electronic Structures of Few Electrons in a Quantum Dot under Magnetic Fields," Japanese Journal of Applied Physics 36, 3924-3927 (1997).
112. T. Mizuno, M. Eto and K. Kawamura, "Extension of the Friedel Sum Rule and its Application to the Resonant Tunneling in Quantum Wires," in the proceedings of Inauguration Conference of Asia Pacific Center for Theoretical Physics (June 4-10, 1996, Seoul).
113. M. Eto, "Non-equilibrium current fluctuation in one-dimensional array of quantum dots," Czechoslovak Journal of Physics 46, Suppl. S4, 2415-2416 (1996).
114. M. Eto, "Nonequilibrium Transport Properties in One-Dimensional Array of Quantum Dots," Journal of the Physical Society of Japan 65, 2952-2962 (1996).
115. T. Mizuno, M. Eto and K. Kawamura, "Studies of Charging Effects on Resonant Tunneling Diodes in Terms of Extended Friedel Sum Rule," Journal of the Physical Society of Japan 65, 2594-2601 (1996).
116. M. Eto, "Nonequilibrium Transport Properties through Two Quantum Dots," Journal of the Physical Society of Japan 65, 1523-1526 (1996).
117. M. Eto and K. Kawamura, "Theory of Optical Absorption in a Small Spherical Shell: Investigation of Quantum Size Effect," Surface Review and Letters 3, 151-155 (1996).
118. K. Kawamura, N. Urata and M. Eto, "Absorption Spectrum of Metal-Coated Particles," Surface Review and Letters 3, 137-141 (1996).
119. M. Eto, "Correlation Effect on Magnetoconductance in Small-Particle Films," in the proceedings of 6th International Conference on Hopping and Related Phenomena (Israel, 1995), pp. 201-206.
120. M. Eto, M. Katagi and K. Kawamura, "Numerical Studies on Current-Voltage Characteristics in an Array of Disordered Tunnel Junctions," in Quantum Coherence and Decoherence, eds. K. Fujikawa and Y. A. Ono (North-Holland, 1995).
121. M. Eto, "Correlation Effect on Magnetoconductance in the Strongly Localized Regime with Spin-Orbit Interaction," Physical Review B 51, 13066-13073 (1995).
122. M. Eto and K. Kawamura, "Quantum Size Effect on Optical Absorption in a Small Spherical Shell," Physical Review B 51, 10119-10126 (1995).
123. T. Mizuno, M. Eto and K. Kawamura, "Phase Shifts and the Friedel Sum Rule Applied to the Asymmetric Tunneling Device," in Nanostructures and Quantum Effects, eds. H. Sakaki and H. Noge (Springer-Verlag Berlin, Heidelberg, 1994).
124. T. Kimura, K. Kuroki, H. Aoki and M. Eto, "Conductivity of an Interacting Two-Channel Tomonaga-Luttinger Model, Physical Review B 49, R16852-R16855 (1994).
125. M. Eto, "Correlation Effect on Hopping Conduction with Spin-orbit Interaction," in Coulomb and Interference Effects in Small Electronic Structures, eds. D. C. Glattli et al. (Editions Frontieres, 1995), 219-224.
126. T. Mizuno, M. Eto and K. Kawamura, "Phase Shifts, the Friedel Sum Rule, Resonant Tunneling through Asymmetric Potentials," Journal of the Physical Society of Japan 63, 2658-2667 (1994).
127. F. Yamaguchi, M. Eto and K. Kawamura, "Studies of Many-Body Effect on Resonant Tunneling by Green Function Method," Journal of the Physical Society of Japan 63, 209 (1994).
128. M. Eto, "First Principles Cluster Calculation of X-ray Absorption Spectra of La₂CuO₄," Physica B 194-196, 1565 (1994).
129. M. Eto, "Positive Magnetoconductance of Hopping Conduction due to Correlation Effect," Physica B 194-196, 1113 (1994).
130. M. Eto, "Plasmons in an Ultrathin Film of Weakly-Coupled Layered Materials," Journal of the Physical Society of Japan 63, 229 (1994).
131. M. Eto, "Correlation Effect on Hopping Conduction in a Magnetic Field," Physical Review B 48, R4933-R4936 (1993).
132. H. Kamimura, M. Eto, S. Matsuno and H. Ushio, "How Have We Understood High T_c Cuprates?" Comments on Condensed Matter Physics 15, 303 (1992).
133. M. Eto and H. Kamimura, "First Principles Cluster Investigation of the Electronic Structures of Copper Oxide Superconductors," in the proceedings of the XII Winter Meeting on Low Temperature Physics (Vista Hermosa, Morelos, M"exico, 1991), Superconducting Ceramics, eds. J. L. Heiras, L. E. Sansores and A. A. Valladares (World Scientific, 1991) 141-164.
134. M. Eto and H. Kamimura, "Low Spin to High Spin Transition at the Onset of Superconductivity in La-Sr-Cu-O and High Spin State in Nd-Ce-Cu-O Compound," Physica C 185-189, 1599-1560 (1991).
135. M. Eto and H. Kamimura, "First Principles Investigation of the Electronic Structures of Copper Oxide Superconductors by the MCSCF Cluster Method," Journal of the Physical Society of Japan 60, 2311 (1991).
136. H. Kamimura and M. Eto, "¹A_1g to ³B_1g Conversion at the Onset of Superconductivity in La_2-xSr_xCuO₄ Due to the Apical Oxygen Effect," Journal of the Physical Society of Japan 59, 3053-3056 (1990).
137. M. Eto, R. Saito and H. Kamimura, "Electronic Structures of Nd₂CuO₄ and its Electron-Doped Cluster Systems," Materials Science and Engineering B 6, L1-L4 (1990).
138. M. Eto and H. Kamimura, "Simulation Studies of Electronic States in Compensated Si:P System," in the proceedings of the third International Conference on Hopping and Related Phenomena (Chapel Hill, NC, 1989), "Hopping and Related Phenomena," eds. H. Fritzsche and M. Pollak, 111-119.
139. M. Eto, R. Saito and H. Kamimura, "Cluster Simulation of Correlation Effect in Hole-Doped High-Temperature Superconductor," Solid State Communications 71, 425 (1989).
140. M. Eto and H. Kamimura, "Studies of the Correlation Effect on the Anderson-Localized States in Si:P by the MCSCF method (I): Uncompensated Case," Journal of the Physical Society of Japan 58, 2826-2835 (1989).
141. M. Eto, O. Sugino and H. Kamimura, "Simulation Studies on Metal-Insulator Transition in Si:P," in the proceedings of the 19th International Conference on the Physics of Semiconductors (Warsaw, 1998) 1213-1216.
142. M. Eto and H. Kamimura, "New Theoretical Method for Strongly Correlated Random Systems and Application to Anderson-Localized States in Si:P," Physical Review Letters 61, 2790-2793 (1988).

2. 日本語の著書、解説

• 江藤 幹雄: 「会議だより: 第21回２次元電子系国際会議 (EP2DS-21)」, 固体物理 47, 833-838 (2015).
• 江藤 幹雄: 「量子力学と方程式」, 数理科学 623, 26-31 (2015) [2015年5月号、特集「物理と方程式: 現象はいかに記述されるか」].
• 江藤 幹雄: 「量子力学I」(丸善出版, パリティ物理教科書シリーズ, 2013).
• 奥山 倫, 江藤 幹雄: 「半導体二重量子ドットにおける光学フォノンレーザー」, 固体物理 50, 277-285 (2013).
• 江藤 幹雄: 物性物理学ハンドブック」(朝倉書店、2012)、 5.2節 単電子帯電効果 を担当
• 江藤 幹雄: 「第26回低温物理学国際会議 (LT26) に参加して」, 固体物理 47, 137-141 (2012).
• 江藤 幹雄: 「半導体中のスピン軌道相互作用入門 (その3)」, 固体物理 43, 397-406 (2008).
• 江藤 幹雄: 「会議だより (国際ワークショップ: ナノスコピック輸送現象に おける相互作用と干渉効果)」, 固体物理 43, 371-379 (2008).
• 江藤 幹雄: 「半導体中のスピン軌道相互作用入門 (その2)」, 固体物理 43, 197-205 (2008).
• 江藤 幹雄: 「半導体中のスピン軌道相互作用入門 (その1)」, 固体物理 43, 145-152 (2008).
• 江藤 幹雄: 「半導体量子ドットの物理学: 近藤効果を中心に」, 物性研究 85, 853-875 (2006).
• 江藤 幹雄: 「量子ポイントコンタクトを用いたスピン注入の方法」, 固体物理 40, 955-961 (2005).
• 江藤 幹雄: 「量子ドットにおける核スピンのエンタングルメント機構」, 固体物理 38, 725-732 (2003).
• 江藤 幹雄: 「半導体量子ドットの物理学--人工原子・分子から近藤効果まで--」, 数理科学 464, 40-45 (2002).
• 江藤 幹雄: 「半導体人工原子における多体効果と輸送現象」, 固体物理 34, 457-464 (1999).
• 江藤 幹雄: 「半導体量子ドットの殻構造、電子相関、クーロン振動」, The Bulletin of the Cluster Science and Technology 2, No. 1, 21-25 (1999).
• 明楽 浩史, 江藤 幹雄, 「量子ドット--導線をつないだ人工原子--」 日本物理学会誌 53, 13-20 (1998).
• 江藤 幹雄, 「球殻微粒子の光吸収における量子サイズ効果」, 物性研究 Vol.65, No.6 (1996年 3月) 873-877, 及び 素粒子論研究 Vol.92, No.5 (1996年 2月) E55-E59.