¡proceedings¡ |
1.
J.Haruyama, I.Takesue, N.Kobayashi, S.Chiashi, S.Maruyama, T.Sugai,
H.Shinohara, gHigh-Tc superconductivity in entirely end-bonded
multi-walled carbon nanotubesh Proceedings of the 1st Workshop on
Nanotechnology Transfer in 2.
J.Haruyama, J.Mizubayashi, T.Okazaki, H.Shinohara, N.Harada, Y.Awano, gAtomic-like
behaviors and orbital-related Tomonaga-Luttinger liquid in carbon nano-peapod
quantum dotsh Proceedings of the 1st Workshop on Nanotechnology Transfer in 3.
J.Haruyama, S.Miyadai, N.Kobayashi, M.Nomura, D.Sato, gSuppression of
Cooper pair breaking against high magnetic fields in carbon nanotubesh, Proceedings of International workshop on
mesoscopic superconductivity and spintronics@@ 4.
J.Haruyama, S.Miyadai, K.Takazawa, A.Takeda,
N.Hori, I.Takesue, T.Akazaki, and H.Takayanagi, gSupercurrent through diffusive
multi-walled carbon nanotubes with strong entanglementh,@Proceedings
of IEEE Nano 2003, 7803-7977/2.1-4
(2003)@@ 5.
J.Haruyama,
S.Miyadai, K.Takazawa, A.Takeda, N.Hori, I.Takesue, T.Akazaki, and
H.Takayanagi, gSupercurrent
through diffusive multi-walled carbon nanotubes with strong entanglementh, Proceedings of the third international
workshop on Quantum Nonplaner Nanostructures and Nanoelectronics, 51-54 (2003)@ 6.
J.Haruyama,
K.Takazawa, S.Miyadai, A.Takeda, N.Hori,
I.Takesue, Y.Kanda, and N. Sugiyama, g Proximity-induced high temperature superconductivity and its reentrance
effect in Niobium/multi-walled nanotubejunctionsh,
Extended abstract for International Workshop on Quantum Nonplanar Nanostructures & Nanoelectronicsf02,
115-119 (2002) 7.
J.Haruyama,
K.Takazawa, S.Miyadai, A.Takeda, N.Hori,
I.Takesue, Y.Kanda, and N. Sugiyama, gProximity-induced
high-temperature superconductivity with reentrance effect and anomalous localization effects sensitive
to excess volume of cobalt catalyst
in multi-walled carbon nanotubesh, Extended abstract ofthe 9th international conference oncomposites engineering,
287-288 (2002) 8.
J.Haruyama,
I.Takesue, and T.Hasegawa, gAnti-localization in heavy-mass metal doped Carbon
nanotubes and a novel spin-interference deviceh, Proceedings of MRS fall meeting 2001, 706, Z6.4
(2002) 9.
J.Haruyama,
gImpact of self-organized nanostrutures, nanoporous Alumina membranes:
anti-localization in carbon nanotubes and macroscopic quantum tunneling in
Ni-nanowireshAProceedings
of the 8th international conference oncomposites engineering In printing 10.
J.Haruyama, gImpact of self-organized nanostrutures, nanoporous Alumina
membranes: anti-localization in carbon nanotubes and magnetoresistance
jumps in ferromagnetic nanowiresh, Extended abstract ofthe 8th international conferenceon composites engineering, 335-336
(2001) 11.
J.Haruyama,
I.Takesue, and T.Hasegawa, gAnti-localization caused by slight doping of
heavy-mass impurities in Carbon nanotubes and a novel spintronics deviceh, Workbook for 14th international
conference on electronic properties of two dimensional systems,
1173-1176 (2001) 12.
J.Haruyama, K.Hijioka, and M.Tako, gCoulomb blockade depending on mutual
Coulomb interaction in nanowire directly connected to single nano-tunnel
junctionh, extended abstractof gElectron transport in mesoscopic systemsh, 211-212 (1999) 13.
J.Haruyama
and K.Takahashi, gCoulomb Stair-case and Anomalous Conductance Quantization in Quantum-wire/junction
Array Prepared into Nano-porous Alumina Filmsh, Extended abstract of International Symposium on Formation, Physics, and Device Application of
Quantum Dot Structures, 136 (1998) 14.
J.Haruyama,
D.Davydov, M.Moskovits, and J.M.Xu et al., gCoulomb Blockade in Nano-Junction
Array Prepared into Porous Alumina Film Templateh, Abstract of the 4th International Symposium on Atomically
Controlled Surfaces and Interfaces(ACSI-4),351 15.
J.Haruyama,
D.Davydov, M.Moskovits, and J.M.Xu et al., gCoulomb Blockade in Nano-Junction
Array Fabricated by Nonlithographic Methodh, Extended abstracts of International Workshop on Nano-physics and Electronicsf97(NPEf97),
84-85, 16.
D.Davydov,
D.Routkevitch, J.Haruyama, M.Moskovits, and J.M.Xu et al., gResistivity
Measurements of Nano-Wires Fabricated by Electrochemical Depositionsh, Abstracts of the 171th Meeting of
Electrochemical Society, 530
(1997) |