 |
| |
 |
 |
| 塚越 一仁 (つかごし かずひと) |
| (理化学研究所 低温物理研究室 先任研究員) |
|
|
|
 |
|
| |
| 1990年 |
名古屋大学理学部卒業 |
| 1992年 |
大阪大学大学院理学研究科物理学専攻博士前期課程終了 |
| 1995年 |
大阪大学大学院理学研究科物理学専攻博士前後期程終了 |
|
 |
|
| |
| 1992〜1993年 |
日立製作所日立研究所 研究員 |
| 1994〜1996年 |
日本学術振興会 特別研究員(DC) |
| 1996〜1997年 |
日本学術振興会 特別研究員(PD) |
| 1996〜1997年 |
Cambridge大Cavendish研究所 客員研究員 |
| 1997〜1999年 |
Hitachi Europa Ltd., Hitachi Cambridge Labroratory 研究員 |
| 1999〜2003年 |
理化学研究所 研究員 |
| 2003〜2004年 |
東北大学金属材料研究所 客員助教授 |
| 2004年〜 |
理化学研究所 先任研究員 |
|
 |
|
| |
| 1986〜1990年 |
k中間子の崩壊過程の研究 |
| 1990〜1992年 |
高移動度GaAs/AlGaAs2次元電子系における量子ホール効果での伝導現象 |
| 1992〜1993年 |
液晶パネル用透明電極製造プロセスと材料物性制御 |
| 1993〜1996年 |
高移動度GaAs/AlGaAs2次元電子系におけるバリスティック伝導の研究 |
| 1996〜1999年 |
単電子ロジック素子の開発研究 |
| 1998年〜現在 |
カーボンナノチューブの電気伝導の研究 |
| 2002年〜現在 |
ナノ電極作製とナノ物質伝導特性 |
|
 |
|
| |
2000年
. |
応用物理学会講演奨励賞, 第8回 (2000年春季)応用物理学会.
塚越一仁、B.W.Alphenaar.
講演タイトル「炭素ナノチューブにおける電子スピンのコヒーレント輸送」
(2000年春季 第47回応用物理学関連連合講演会) |
2002年
. |
MNC award: Most Impressive Presentation,
K.Tsukagoshi, A.Kanda, N.Yoneya, E.Watanabe, Y.Ootuka, and Y.Aoyagi,
講演タイトル「Nano-electronics in a multiwall carbon nanotube」.
(2001 International Microprocesses and Nanotechnology Conference 発表、2002年受賞). |
|
|
| |
|
|
|
| |
| [1] |
The production of charmed particles in high-energy 16O-emulsion central interactions, HELIOS-Emulsion Collaboration (K.Kodama et al.),
Phys. Lett. B 224, 441-444 (1989).
|
| [2] |
A Search for multiplicity fluctuations in high energy nucleus-nucleus collisions, HELIOS-Emulsion Collaboration (K.Kodama et al.),
Phys. Lett. B 252, 303-310 (1990).
|
| [3] |
An emulsion study of 16O and 32S interactions at 200 GeV per nucleon selected by transverse energy, HELIOS-Emulsion Collaboration (K.Kodama et al.), Nucl. Phys. B 342, (2), 279-301 (1990).
|
| [4] |
Influence of edge current and contact on nonlocal Shubnikov-de Haas oscillations in macroscopic GaAs/AlGaAs wire,
S.Takaoka, T.Sawasaki, K.Tsukagoshi, K.Oto, K.Murase, K.Gamo, and S.Namba, Solid State Communication 80, (8), 571-574 (1991).
|
| [5] |
Nonlocal Shubnikov-de Haas oscillations through edge and bulk currents in GaAs/AlGaAs mesoscopic quantum wires,
K.Tsukagoshi, K.Oto, S.Takaoka, K.Murase, Y.Takagaki, K.Gamo, and S.Namba, Solid State Communication 80, (10) 797-800 (1991).
|
| [6] |
Role of edge and bulk currents through a gate barrier in nonlocal resistance of GaAs/AlGaAs,
K.Tsukagoshi, K.Oto, S.Takaoka, K.Murase, Y.Takagaki, K.Gamo, and S.Namba, Physical Review B 46, (8), 5016-5019 (1992).
|
| [7] |
Ballistic and Elastic Mean Free Paths Determined by Magnetic Electron Focusing Effect in GaAs/AlGaAs,
S.Takaoka, K.Tsukagoshi, S.Wakayama, K.Murase, K.Gamo, and S.Namba,
Solid State Communication 83, (10) 775-777 (1992) .
|
| [8] |
Nonlocal quantum conduction and the influence of contact resistance in GaAs/AlGaAs Wires,
S.Takaoka, K.Tsukagoshi, K.Oto, T.Sawasaki, K.Murase, Y.Takagaki, K.Gamo, and S.Namba, Surface Science 267, (1-3) 282-285 (1992).
|
| [9] |
Influence of Gate Voltage on Nonlocal Resistance in GaAs/AlGaAs Heterostructure at High Magnetic Fields,
S.Takaoka, K.Tsukagoshi, K.Oto, K.Murase, Y.Takagaki, K.Gamo, and S.Namba,
Physica B 184, (1-4) 21-25 (1992).
|
| [10] |
Investigation of ballistic elastic scattering length and specularity in multi-terminal GaAs-AlGaAs by magnetic electron focusing effect,
K.Tsukagoshi, S.Takaoka, K.Murase, K.Gamo, and S.Namba,
Appl.ied Physics Letters 62, (14) 1609-1611 (1993).
|
| [11] |
Mechanism of apparent reflection of electrons from extra probes investigated by magnetic electron focusing effect, S.Takaoka, S.Wakayama, S.G.Inoue,
K.Tsukagoshi, K.Oto, K.Murase, and K.Gamo,
Physical Review B 50, (16) 11661-11665 (1994).
|
| [12] |
Investigation of elrctron emission angular distribution from oblique wire by magnetic electron focusing effect and low field magnetoresistance,
S.Wakayama, K.Tsukagoshi, K.Oto, S.Takaoka, K.Murase, and K.Gamo,
Solid State Communication 92, (5), 413-417 (1994).
|
| [13] |
Transport Properties in Artificial Lateral Superlattice,
K.Tsukagoshi, S.Wakayama, K.Oto, S.Takaoka, K.Murase, and K.Gamo,
Superlattices and Microstructures 16, (3), 295-301 (1994).
|
| [14] |
Current Direction Dependent Commensurate Oscillations in GaAs/AlGaAs Antidot Superlattice,
K.Tsukagoshi, M.Haraguchi, K.Oto, S.Takaoka, K.Murase, and K.Gamo,
Japan Journal of Applied Physics 34, (8B) 4335-4337 (1995).
|
| [15] |
Magnetic electron focusing effect in GaAs/AlGaAs heterostructure with a gate-controlled byway channel,
S.G.Inoue, S.Takaoka, K.Tsukagoshi, K.Oto, S.Wakayama, K.Murase, and K.Gamo,
Japan Journal of Applied Physics. 34, (8B) 4329-4331 (1995).
|
| [16] |
Magnetotransport through Disordered and Anisotropic Antidot Lattices in GaAs/AlGaAs Heterostructure,
K.Tsukagoshi, S.Wakayama, K.Oto, S.Takaoka, K.Murase, and K.Gamo,
Physical Review B 52, (11) 8344-8347 (1995).
|
| [17] |
On the Mechanism of Commensurability Oscillations in Anisotropic Antidot Lattice,
K.Tsukagoshi, M.Haraguchi, S.Takaoka, and K.Murase,
J. Phys. Soc. Jpn. 65, (3), 811-817 (1996) .
|
| [18] |
Mechanism of commensurability oscillations in anisotropic antidot lattice,
K.Tsukagoshi, S.Takaoka, K.Murase, and K.Gamo,
Physica B 227, (1-4) 141-143 (1996).
|
| [19] |
Investigation of Hall resistivity in Antidot Lattices with respect to Commensurability Oscillations,
K.Tsukagoshi, T.Nagao, M.Haraguchi, S.Takaoka, K.Murase, and K.Gamo,
J. Phys. Soc. Jpn. 65, (7), 1914-1916 (1996).
|
| [20] |
Electron pump in multiple-tunnel junctions,
K.Tsukagoshi, K.Nakazato, H.Ahmed, and K.Gamo,
Physical Review B 56, (7), 3972-3975 (1997).
|
| [21] |
Electron Pump Current by Two Pulses with Phase Delay,
K.Tsukagoshi and K.Nakazato,
Appl.ied Physics Letters 71, (21) 3138-3140 (1997).
|
| [22] |
Commensurability Oscillations by Runaway and Pinned Electrons,
K.Tsukagoshi, T.Nagao, M.Haraguchi, S.Takaoka, K.Murase, and K.Gamo,
Superlattices and Microstructures 23, (2), 493-496 (1998).
|
| [23] |
Two-way switching based on turnstile operation,
K.Tsukagoshi and K.Nakazato,
Appl.ied Physics Letters 72, (9), 1084-1085 (1998).
|
| [24] |
Operation of Logic Function in Coulomb Blockade device, K.Tsukagoshi,
B.W.Alphenaar and K.Nakazato,
Appl.ied Physics Letters 73, (17) 2515-2517 (1998).
|
| [25] |
Detection of Spin-flip Relaxation using Quantum Point Contacts,
B.W.Alphenaar, H.O.Muller, and K.Tsukagoshi,
Physical Review Letteter 81, (25) 5628-5631 (1998).
|
| [26] |
Spin coherent transport in a ferromagnetically contacted carbon nanotube,
K.Tsukagoshi, B.W.Alphenaar, and H.Ago,
Nature 401, (6753) 572-574 (1999).
|
| [27] |
Spin Electronics using Carbon Nanotubes,
B.W.Alphenaar, K.Tsukagoshi, and H.Ago,
Physica E 6, (1-4) 848-851 (2000).
|
| [28] |
Spin-polarized transport in carbon nanotubes,
K.Tsukagoshi and B.W.Alphenaar,
Superlattices and Microstructures 27, (5-6) 565-570 (2000).
|
| [29] |
Quantum-Dot Transport in Carbon nanotube,
T.Ida, K.Ishibashi, K.Tsukagoshi B.W.Alphenaar and Y.Aoyagi,
Superlattices and Microstructures 27, (5-6) 551-554 (2000).
|
| [30] |
Scaling of single-electron tunneling current through ultra-small tunnel junctions,
S.Amakawa, K.Hoh, M.Fujishima, H.Mizuta, and K.Tsukagoshi,
Journal of Physics: Condensed Matter 12, (32) 7223-7228 (2000).
|
| [31] |
Quantum-Dot Transport in Carbon nanotube,
K.Ishibashi, T.Ida, M.Suzuki, K.Tsukagoshi, and Y.Aoyagi,
Japan Jouranl of Applied Physics 39, (12B), 7053-7057 (2000).
|
| [32] |
Magnetoresistance of ferromagnetically contacted carbon nanotubes,
B.W.Alphenaar, K.Tsukagoshi, and M.Wagner,
Physica E 10, (1-3) 499-504 (2001).
|
| [33] |
Spin injection in carbon nanotubes,
K.Tsukagoshi, B.W.Alphenaar, and M.Wagner,
Materials Science and Engineering B, 84, (1-2) 26-30 (2001).
|
| [34] |
Spin Transport in Nanotubes,
B.W.Alphenaar, M.Wagner, and K.Tsukagoshi,
Journal of Applied Physics 89, (11) 6863-6867 (2001).
|
| [35] |
Nanoscale Coulomb blockade memory and logic devices,
H.Mizuta, H-O.Muller, K.Tsukagoshi, D.Williams, K.Nakazato, Z.Durrani, A.Irvine, S.Amakawa, G.Evans, and H.Ahmed,
Nanotechnology 12, (2), 155-159 (2001).
|
| [36] |
Barrier formation in electrical contacts between metal and multi-wall carbon nanotube,
A.Kanda, K.Tsukagoshi, Y.Ootuka, and Y.Aoyagi,
CP590 Nanonetwork Materials, edited by S.Saito et al., American Institute of Physics, 265-268 (2001).
|
| [37] |
Electron transport in metal/multiwall carbon nanotube/metal structures (metal=Ti or Pt/Au),
A.Kanda, K.Tsukagoshi, Y.Ootuka, and Y.Aoyagi,
Appl.ied Physics Letters 79, (9), 1354-1356 (2001).
|
| [38] |
Coulomb blockade in multi-walled carbon nanotube island with nanotube leads,
N.Yoneya, E.Watanabe, K.Tsukagoshi, and Y.Aoyagi,
Appl.ied Physics Letters 79, (10) 1465-1467 (2001).
|
| [39] |
Carbon nanotube devices for nanoelectronics,
K.Tsukagoshi, N.Yoneya, S.Uryu, Y.Aoyagi, A.Kanda, Y.Ootuka, and B.W.Alphenaar,
Physica B 323, 107-114 (2002).
|
| [40] |
Magnetic field dependence of Coulomb Oscillations in metal/multi-wall carbon nanotube/metal structure,
A.Kanda, K.Tsukagoshi, Y.Ootuka, and Y.Aoyagi,
Physica B, 323, 246-248 (2002).
|
| [41] |
Transport properties of multiwall carbon nanotubes,
A.Kanda, K.Tsukagoshi, S.Uryu, Y.Ootuka, and Y.Aoyagi,
Microelectronic Engineering, 63 (1-3) 33-37 (2002).
|
| [42] |
Charge transfer control by gate voltage in crossed nanotube junction,
N.Yoneya, K.Tsukagoshi, and Y.Aoyagi,
Appl.ied Physics Letters 81, (12) 2250-2252 (2002).
|
| [43] |
Catalytic Growth of Carbon nanotubes and Their Patterning based on Ink-jet and Lithographic Techniques,
H.Ago, J.Qi, K.Tsukagoshi, K.Murata, S.Ohshima, Y.Aoyagi, and M.Yumura,
Journal of Electroanalytical Chemistry, 559, 25-30 (2003).
|
| [44] |
One-dimensional System in Carbon Nanotubes
H. Kataura, Y. Maniwa, T. Kodama, K. Kikuchi, S. Suzuki, Y. Achiba, K. Sugiura, S. Okubo, K. Tsukagoshi
AIP Conf. Proc. 685, (1) 349-353 (2003).
|
| [45] |
High-yield production of single-wall carbon nanotubes in nitrogen gas,
D.Nishide, H.Kataura, S.Suzuki, K.Tsukagoshi, Y.Aoyagi, and Y.Achiba,
Chemical Physics Letter, 372 (1-2) 45-50 (2003).
|
| [46] |
High Density Current Operation in Nano-Graphite Fiber Synthesized by Chemical Vapor Deposition,
K.Tsukagoshi, At.Suzuki, I.Yagi, E.Watanabe, Y.Aoyagi, H.Ago, S.Ohshima, and M.Yumura,
Journal of Applied Physics, 94, (5) 3516-3519 (2003).
|
| [47] |
Suppressed pinning field of a trapped domain wall due to a dc current injection,
T.Kimura, Y.Otani, I.Yagi, K.Tsukagoshi, and Y.Aoyagi
Journal of Applied Physics, 94 (10), 7266-7269 (2003).
|
| [48] |
Spin-current assisted domain-wall depinning in a submicron, magnetic wire
T.Kimura, Y.Otani, K.Tsukagoshi, and Y.Aoyagi,
Journal of Appl. Phys. 94 (12) , 7947-7949 (2003).
|
| [49] |
Coulomb blockade oscillation in multiwalled carbon nanotube with internanotube tunnel junctions,
E.Watanabe, K.Tsukagoshi, D.Kanai, IYagi, and Y.Aoyagi,
Appl.ied Physics Letters 83, (7) 1429-1431 (2003).
|
| [50] |
Temperature mediated switching of magnetoresistance in Co-contacted multiwall carbon nanotubes
S.Chakraborty, K.Walsh, B.W.Alphenaar, L.Liu and K.Tsukagoshi,
Appl.ied Physics Letters 83, (5) 1008-1010 (2003).
|
| [51] |
Non-local Hall resisitance measured in submicron0scale nonmagnetic/ferromagnetic junctions,
T.Kimura, Y.Otani, K.Tsukagoshi, and Y.Aoyagi,
Journal of Magnetic and Magnetic Materials, in printing (2003).
|
| [52] |
Domain wall drag due to dc current injection into feromagnetic nano-wires,
T.Kimura, Y.Otani, I.Yagi, K.Tsukagoshi, and Y.Aoyagi,
Journal of Magnetic and Magnetic Materials, in printing (2003).
|
| [53] |
Molecular nanotransistor based on a pentacene crystal connected by carbon nanotubes
K.Tsukagoshi, I.Yagi, and Y.Aoyagi,
Appl.ied Physics Letters, in printing.
|
| [54] |
Gate-voltage dependence of the Zero-bias anomalies in multi-walled carbon nanotubes,
A.Kanda, K.Tsukagoshi, Y.Ootuka, and Y.Aoyagi,
Physical Review Letters 92 (3) 036801-1 ? 036801-4 (2004).
|
| [55] |
Multiple layers conduction and scattering property in multi-walled carbon nanotubes, (Invited paper)
K.Tsukagoshi, E.Watanabe, I.Yagi, N.Yoneya, and Y.Aoyagi,
New Journal of Physics. 6 (3) 1-13 (2004).
|
| [56] |
Nano-meterscale junction fabrications by electric degradation and nano-material transport applications,
K.Tsukagoshi, E.Watanabe, I.Yagi, and Y.Aoyagi,
Microelectronic Engineering, in printing.
|
| [57] |
Selectively grown pentacene nano-crystal FET with carbon nanotube electrodes,
I.Yagi, K.Tsukagoshi, and Y.Aoyagi,
Microelectronic Engineering, in printing.
|
| [58] |
Fabrication of Coulomb blockade device by controlling 0.34 nm space in multiwalled carbon nanotube,
E.Watanabe, K.Tsukagoshi, I..Yagi, and Y.Aoyagi,
Microelectronic Engineering, in printing.
|
| [59] |
Direct observation of contact and channel resisitance in pentacence four-terminal lhin-film transistor,
I.Yagi, K.Tsukagoshi, and Y.Aoyagi,
Appl.ied Physics Letters, in printing (2004).
|
| [60] |
Purification of Single Wall Carbon Nanotubes synthesized by the Catalytic Chemical Vapor Deposition of alcohol,
S.Okubo, T.Sekine, S.Suzuki, Y.Achiba, K.Tsukagoshi, Y.Aoyagi, and H.Kataura,
Jpn. J. Appl. Phys. in printing.
|
| |
他、日本語解説など10件 |
|
| |
|
|
| 【特許リスト】 |
| 1) |
カーボンナノチューブ作成用触媒パターン,
特願2001- 135590、特許公開:2002-285335 (P2002-285335A) 公開日:平成14年10月3日
特許第3463092号 平成15年8月22日 |
|
他、出願中3件 |
|
| |
|
 |
|
※「1期生」 = 平成13年度採用研究者 2001年〜2004年
※「2期生」 = 平成14年度採用研究者 2002年〜2005年
※「3期生」 = 平成15年度採用研究者 2003年〜2006年
|
|
|
|
|
