[40] "グラフェンナノエレクトロニクス素子の開発に向けて−素子シミュレーションと素子作成・物性評価",
相馬聡文,小川真人,山本貴博,渡辺一之,長汐晃輔
固体物理 Vol. 45 No. 1 pp.63-76 (2010) (Japanese)..
[39] "Effect of interface structure on current spin-polarization in
narrow gap semiconductor heterostructures"
Satofumi Souma and Matsuto Ogawa
Accepted for publication in Physica E (published online).
[38] "Spin-polarization in InAs/AlSb double barrier resonant tunneling
structures: influence of barrier material and interface structure"
Satofumi Souma and Matsuto Ogawa,
Physics Procedia Vol 3, Issue 2, pp. 1287-1290 (2010).
[37] "Spin currents in semiconductor nanostructures:A nonequilibrium
Green function approach"
B.K.Nikolic, L.P.Zarbo, and S.Souma
"Oxford Handbook of Nanoscience and Technology: Frontiers and Advances",
edited by A. V. Narlikar and Y. Y. Fu (Oxford University Press, Oxford,
2009),Chap 24, pp.814-865 (2010).
[36] "Device Physics and Simulation Techniques for Nanoscale SOI-MOSFETs"
Hideaki Tsuchiya, Yoshihiro Yamada, Satofumi Souma, and Matsuto Ogawa,
ECS Trans. 19 (4), 211-220 (2009).
[35] "Simulation of Graphene Nanoribbon Spin-Filter Device with Spin-Density
Functional
Tight-Binding Method"
Satofumi Souma, Matsuto Ogawa, Takahiro Yamamoto, and Kazuyuki Watanabe
Proceedings of the 13th International Workshop on Computational Electronics ( 2009)
[34] "Transitions of density of states and heat capacity In spherical quantum
structure formed by a thin barrier"
S. J. Lee, H.C.Jeon,T.W.Kang, and S.Souma
Physica E, Vol. 40Issue 6, pp. 2198-2200 (2008)
[33] "Dimensional transitions of density of states and heat capacity in spherical
quantum dots"
S. J. Lee, H.C.Jeon,T.W.Kang, and S.Souma
Int. J. Mod. Phys. B Vol. 22, No.15, pp. 2373-2382 (2008)
[32] "Numerical Simulation of Electronic Transport in Zigzag-edegd
Graphene Nano-Ribbon Devices",
Satofumi Souma, Matsuto Ogawa, Takahiro Yamamoto, and Kazuyuki Watanabe
Journal of Computational Electronics Vol.7, No. 3 pp.390-393 (2008)
[31]
“Quantum Electron Transport Modeling in Uniaxially Strained Silicon Channel of Double-Gate MOSFETs”
H. Fitriawan, M. Ogawa, S. Souma, and T. Miyoshi,
Physica Status Solidi (c) Vol. 5, Issue 1, pp. 74-77(2008)
[30] “Multiband Simulation of Nano-Scale MOSFETs Based on a Non-Equilibrium
Green’s Function Method”
H. Fitriawan, M. Ogawa, S. Souma, and T. Miyoshi,
IEICE Transactions on Electronics,
Volume and Number: Vol.E91-C, No.1, pp.105-109, Jan. 2008.
[29]
“Non-Equilibrium Green's Function Method for Modeling Quantum Electron Transport
in Nano-Scale Devices with Anisotropic Multiband Structure”
H. Fitriawan, M. Ogawa, S. Souma, and T. Miyoshi,
Journal of Materials Science: Materials in Electronics,
Vol. 19, No. 2, pp. 107-110, Feb 2008.
[28]“Quantum Electron Transport Modeling in Double-Gate MOSFETs Based on
Multiband Non-Equilibrium Green's Function Method”
H. Fitriawan, M. Ogawa, S. Souma, and T. Miyoshi,
Physica E (Low Dimensional Systems & Nanostructures)
Vol 40, Issue 2, pp. 245-248, Dec 2007.
[27]
Electronic transport properties of graphitic ribbon bridges under finite bias viltages
Satofumi Souma, Takahiro Yamamoto, and Kazuyuki Watanabe
e-J. Surf. Sci. Nanotech. Vol.4, pp.78−83 (2006)
[26] Imaging mesoscopic spin flow: Spatial distribution of local spin currents
and spin densities
in and out of multiterminal spin-orbit coupled semiconductor nanostructures
B. K. Nikolic, L. P. Zarbo, and S. Souma
Phys. Rev. B 73, 075303 (2006).
[25] Comparative study of time-dependent and scattering-state ab initio
calculations for field emission
Masaaki Araidai, Satofumi Souma, and Kazuyuki Watanabe
e-J. Surf. Sci. Nanotech. Vol. 3, p.457 (2005)
[24]
Nonequilibrium Spin Hall Accumulation in Ballistic Semiconductor Nanostructures
B.K. Nikolic, S. Souma. L.P. Zarbo, and J. Sinova
Phys. Rev. Lett. 95, 046601 (2005)
[23]
Spin Hall Current Driven by Quantum Interferences in Mesoscopic Rashba Rings
Satofumi Souma and Branislav K. Nikolic
Phys. Rev. Lett. 94, 106602 (2005)
[22]
Mesoscopic Spin Hall Effect in Multiprobe Ballistic Spin-Orbit Coupled Semiconductor Bridges
Branislav K. Nikolic, Liviu P. Zarbo, and Satofumi Souma
Phys. Rev. B 72, 075361 (2005)
[21] Controlling Decoherence of Transported Quantum Spin Information
in Semiconductor Spintronics
Branislav K. Nikolic and Satofumi Souma
cond-mat/0405304
REALIZING CONTROLLABLE QUANTUM STATES
Proceedings of the International Symposium on Mesoscopic Superconductivity
and
Spintronics - In the Light of Quantum Computation, World Scientific (2005)
[20]
Decoherence of transported spin in multichannel spin-orbit coupled spintronic devices:
Scattering approach to spin density matrix from the ballistic to the localized regime
Branislav K. Nikolic and Satofumi Souma
Phys. Rev. B 71, 195328 (2005)
[19] Molecular like states in coupled magnetic quantum dots,
S. Souma, S. J. Lee, T. W. Kang, G. Ihm, and K. J. Chang,
Physics of Semiconductors: 27th Int. Conf. on Physics of Semiconductors
edited by J. Menendez and C. G. Van de Walle, AIP Conference Proceedings Volume 772, pp.735 (2005)
[18] Transitions of dimensional states in quantum dots formed by spherical
barrier,
S. J. Lee, T. W. Kang, S. Souma, S. K. Noh, and J. C. Woo,
Physics of Semiconductors: 27th Int. Conf. on Physics of Semiconductors
edited by J. Menendez and C. G. Van de Walle, AIP Conference Proceedings Volume 772, pp.793 (2005)
[17] Numerical Study of Ferromagnstism in Diluted Magnetic Semiconductor
Quantum Wells,
Satofumi Souma, Seung Joo Lee, and Tae Won Kang,
International Journal of Modern Physics B, Vol.19, No.19 (2005) 3151 - 3160
[16]
Modulating Unpolarized Current in Quantum Spintronics:
Visibility of Spin-Interference Effects in Multichannel Aharonov-Casher Mesoscopic Rings
Satofumi Souma
and Branislav K. Nikolic
Phys. Rev. B 70, 195346 (2004)
[15]
On the two magnetic quantum dots in a two dimensional electron gas,
S. J. Lee, T. W. Kang, G.. Ihm, K. J. Chang, and S. Souma,
Uzbek Journal of Physics, Vol.6, No.5-6, pp 334-340 (2004)
[14]Effects of Multi-subband occupation and electric field
in ferromagnetic semiconductor quantum wells
S.Souma, S.J. Lee, and T.W.Kang,
Physica E 21 (2004) 1037-1040
[13]Magnetic Quantum Dots and Magnetic Edge States,
S. J. Lee, S. Souma, G. Ihm, and K. J. Chang
Physics Reports 394 (2004) 1-40
[12]Transitions of the Density of States in Cylindrical Quantum Box
S.J.Lee, S.Souma, N.Kim, T.W.Kang, G.Ihm, J.C.Woo, A.Suzuki
Similarity in Diversity, Edited by S.Fujita, H.Hara, D.L.Morabito, and
Y.Okamura, (2003) pp.27-34, Nova Science Publishers, Inc.
[11]Effects of magnetic quantum dots on magneto-conductance in quantum
wires
S. Souma, S.J. Lee, N. Kim, T.W. Kang, G. Ihm, K.S. Yi, and A. Suzuki
Journal of superconductivity: Incorporating Novel
Magnetism 16 (2003) 339-242
[10]Magneto-conductance in Quantum Wires with Array of Magnetic Quantum
Dots
S. Souma, S.J. Lee, N. Kim, T.W. Kang, G. Ihm, J.C.Woo, and A. Suzuki
Published on CD-ROM in "Proceedings of the 26th International Conference
on the Physics of Semiconductors, Edinburgh 2002"(2002)
[9]Dimensional crossover in cylindrical quantum box structures formed by
penetrable barriers
Satofumi Souma, Seung Joo Lee, Nammee Kim, and Tae Won Kang
Journal of Applied Physics, vol 92, No. 11, Dec. 2002, pp. 6927-6929
[8]Dimensional crossover of density of states in cylindrically confined
systems
Satofumi Souma, Seung Joo Lee, and Tae Won Kang
Journal of the Korean Physical Society, vol. 40 No. 6, June 2002, pp. 1051~1055.
[7]Local density of states and scattering matrix in quasi-one-dimensional
systems.
Satofumi Souma and Akira Suzuki
Physical Review B Condensed Matter Physics, Volume 65,
Number 11, 15 March (2002) P.115307-1~115307-7.
[6]Transmission phases in quantum wires with an antidot potential subjected
to a high magnetic field
Satofumi Souma and Akira Suzuki
Journal of the Korean Physical Society, vol. 39 No. 3, September 2001, pp. 553~557.
[5]Dephasing due to voltage probes in quantum wires with antidot potential
Satofumi Souma and Akira Suzuki
AIP Conference Proceedings 519, (2000) P.569-571.
(Statistical Physics, Third Tohwa University International
Conference,
edited by M.Tokuyama and H.E.Stanley)
[4]Effect of phase breaking scattering in quantum wires
with an antidot potential
Satofumi Souma and Akira Suzuki
Proceedings of the 5th International Workshop on Similarity in Diversity,
edited by H. Hara, T. Toyoda and T. Morita, (1999) P.183-187.
[3]Interedge scattering in mesoscopic Corbino disks near the ballistic
regime
Satofumi Souma and Akira Suzuki
Physical Review B Condensed Matter Physics, Volume 60,
Number 23, 15 December (1999) P.15928-15936.
[2]Evanescent modes and impurity scattering in nano-scale Corbino disks
Satofumi Souma and Akira Suzuki
Statistical Physics, Experiments, Theories and Computer Simulation,
Proceedings of the 2nd Tohwa University International Meeting,
edited by M. Tokuyama and I. Oppenheim, (1998) P. 196.
[1]Effect of impurity scattering in nanoscale Corbino disks,
Satofumi Souma and Akira Suzuki
Physical Review B Condensed Matter Physics, Volume 58,
Number 8, 15 August (1998) P.4649-4655.