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Toshishige Yamada's Publication list: |
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[1] Journals and magazinesModeling of nano-scale device experiments |
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1. A. Orphanou*,
T. Yamada*, and C. Y. Yang, "Optimization of
carbon nanotube ultracapacitor
for cell design," Journal of Applied Physics 119 (21), 214311 (2016). (*corresponding
authors) |
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2. A. Orphanou*,
T. Yamada*, and C. Y. Yang, "Modeling of a Carbon Nanotube Ultracapacitor," Nanotechnology 23 (9), 095401 (2012).
(*corresponding authors) |
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3. T. Yamada, H. Yamada, A. J. Lohn, and N. P. Kobayashi, "Room-temperature
Coulomb Staircase in Semiconducting InP
Nanowires Modulated with Light Illumination",
Nanotechnology 22 (5), 055201 (2011). |
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4. T. Yamada, H. Yabutani, T. Saito, and C. Y. Yang, "Temperature
Dependence of Carbon Nanofiber Resistance," Nanotechnology 21 (26), 265707 (2010). |
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5.
T. Yamada, T. Saito , M. Suzuki , P. Wilhite , X. Sun
, N. Akhavantafti , D. Fabris
, and C. Y. Yang, "Tunneling
Between Carbon Nanofiber and Gold Electrodes,"
J. Appl. Phys. 107 (4), 044304 (2010). |
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6.
T. Yamada, F. R. Madriz, and C. Y. Yang, (invited
paper) "Inductance
in One-dimensional Nanostructures," IEEE Trans. Elec. Dev. 56 (9), 1834-1839 (2009). |
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7. T. Yamada, T. Saito, D. Fabris, and C. Y. Yang, "Electrothermal Analysis of Breakdown in Carbon Nanofiber Interconnects," IEEE Elec. Dev.
Lett. 30 (5), 469-471 (2009). |
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8.
T.
Yamada, "Equivalent
circuit model for carbon nanotube Schottky barrier: Influence of neutral polarized gas
molecules," Appl. Phys. Lett. 88 (8),
083106 (2006). |
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9.
T.
Yamada, "Modeling
of Carbon Nanotube Schottky
Barrier Modulation under Oxidizing Conditions," Phys. Rev. B 69 (12), 125408 (2004). |
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10.
T.
Yamada, Chapter
7, "Nanoelectronics Applications" in
Carbon Nanotubes: Science and Applications edited
by M. Meyyappan, (CRC, Boca, Raton, 2004). |
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11.
T.
Yamada, "Modeling
of Kink-shaped Carbon-nanotube Schottky
Diode with Gate Bias Modulation," Appl. Phys. Lett.
80 (21), 4027-4029 (2002). |
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12.
T.
Yamada, "Modeling of
electronic transport in scanning tunneling microscope tip–carbon nanotube systems," Appl. Phys. Lett. 78 (12),
1739-1741 (2001). |
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13.
T.
Yamada, "Analysis of
submicron carbon nanotube field-effect transistors,"
Appl. Phys. Lett. 76 (5), 628-630 (2000). |
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Collaboration with nano-scale device
experimentalists
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1.
Yang Gao, Hilal Cansizoglu, Soroush Ghandiparsi, Cesar Bartolo-Perez, Ekaterina Ponizovskaya
Devine, Toshishige Yamada, Aly F Elrefaie, Shih-yuan Wang, M Saif Islam, "High Speed Surface Illuminated Si
Photodiode Using Microstructured Holes for
Absorption Enhancements at 900–1000 nm Wavelength" ACS Photonics. 4 (8) 2053 – 2060 (2017) (with UCD and WWSense). |
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2. Yang
Gao, Hilal Cansizoglu, Kazim G Polat, Soroush Ghandiparsi, Ahmet Kaya, Hasina H Mamtaz, Ahmed S Mayet, Yinan Wang, Xinzhi Zhang, Toshishige Yamada, Ekaterina Ponizovskaya Devine, Aly F Elrefaie, Shih-Yuan Wang, M Saif
Islam, "Photon-trapping microstructures enable high-speed
high-efficiency silicon photodiodes," Nature Photonics 11 (5), 301-308 (2017) (with
UCD and WWSense). |
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3. P. Wilhite, A. A. Vyas,
J. Tan, J. Tan, T. Yamada, P. Wang, J. Park, and C. Y. Yang, "Metal-nanocarbon Contacts," Semicond.
Sci. Tech. 29 (5) 054006 (2014) (with Applied Mat). |
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4.
A. A. Vyas, F. R. Madriz, N. Kanzaki, P. Wilhite, X. Sun, T.
Yamada, and C. Y. Yang "Carbon nanofiber
interconnect RF characteristics improvement with deposited tungsten contacts,"
J. Nanosci. Nanotech. 14 (3), 2683-6 (2014) (with |
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5.
D. Fabris, M. Rosshirt,
C. Cardenas, P. Wilhite, T. Yamada, and C.Y.
Yang, "Application
of Carbon Nanotubes to Thermal Interface Materials,"
J. Electron. Packag. 133, 020902 (2011) (with SCU Mech Eng). |
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6.
F. R. Madriz, T. Yamada,
X. Sun, J. G. Nickel, and C. Y. Yang, "Frequency-independent RC-Circuit Model
for One-dimensional Carbon Nanostructures," IEEE Elec. Dev. Lett. 31 (4), 263-265 (2010) (within SCU). |
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7. W. Wu, S. Krishnan, T. Yamada*, X. Sun, P. Wilhite,
R. Wu, K. Li, and C. Y. Yang, "Contact
resistance in carbon nanostructure via interconnects," Appl. Phys. Lett. 94 (16), 163113 (2009). (*corresponding author, with |
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8. T. Saito, T. Yamada,
D. Fabris, H. Kitsuki, P.
Wilhite, M. Suzuki, and C. Y. Yang, "Improved contact for thermal and electrical
transport in carbon Nanofiber interconnects," Appl. Phys. Lett.
93 (10), 102108, (2008). (with |
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9.
H. Kitsuki, T. Yamada*,
D. Fabris, J. R. Jameson, P.Wilhite,
M. Suzuki, and C. Y. Yang, "Length dependence of current-induced
breakdown in carbon nanofiber interconnects,"
Appl. Phys. Lett. 92
(17), 173110 (2008). (*corresponding author, with |
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10.
M. Suzuki, T. Yamada, and C. Y. Yang, "Monte
Carlo Simulation of SEM Bright-contrast Images of Suspended Carbon Nanofibers," Appl. Phys. Lett.
90 (8), 083111 (2007) (with NASA, |
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11.
J. H. Seol, A. L. Moore, S. K. Saha, F. Zhou, L. Shi, Q. L. Ye, R. H. Scheffler, N. Mingo, and T. Yamada, "Measurement and
analysis of thermopower and electrical conductivity
of an indium antimonide nanowire
from a vapor-liquid-solid method," J. Appl. Phys. 101 (2), 023706 (2007) (with NASA and
UT Austin) |
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12.
Q. Ngo, T. Yamada, M. Suzuki,
Y. Ominami, A. M. Cassell,
J. Li, M. Meyyappan, and C.Y. Yang, "Structural
and Electrical Characterization of Carbon Nanofibers
for Interconnect Via Applications," IEEE Trans. Nanotech. 6
(6), 688-695 (2007). (with NASA, |
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13.
M. Suzuki, Q. Ngo, H. Kitsuki,
K. Gleason, Y. Ominami, C. Y. Yang, T. Yamada,
A. M. Cassell, and J. Li, "Bright-field transmission
imaging of carbon nanofibers on bulk substrate
using conventional scanning electron microscopy," J. Vac. Sci.
Technol. B 25 (5)1615-1621 (2007).
(with NASA, |
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14.
M. Suzuki, Y. Ominami, Q. Ngo, T.
Yamada, A. M. Cassell, and C. Y. Yang, "Bright Contrast
Imaging of Carbon Nanofiber-substrate
Interface," J. Appl. Phys. 100 (10), 104305 (2006). (with
NASA, |
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15.
H. T.
Ng, J. Han, T. Yamada, P. Nguyen, Y. Chen, and M. Meyyapan,
"Single Crystal Nanowire Vertical Surround Gate Field-effect
Transistor," Nano Lett.
4 (7) 1247-1252 (2004). (within |
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16.
B. Altfeder X. Liang T. Yamada
D. M. Chen and V. Narayanamurti, "Anisotropic
Metal-Insulator Transition in Epitaxial Thin Films," Phys. Rev. Lett. 92 (22),
226404 (2004) (with |
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17.
P. Nguyen, H.T.
Ng, T. Yamada, M. K. Smith, J. Li, J. Han, and M. Meyyappan,
"Direct
Integration of Metal Oxide Nanowire in Vertical
Field-effect Transistor," Nano Lett. 4 (4),
651-657 (2004). (within |
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18.
H. Okamoto,
D. M. Chen, and T. Yamada, "Competing
Classical and Quantum Effects in Shape Relaxation of a Metallic Island,"
Phys. Rev. Lett. 89 (25), 256101 (2002). (with |
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Theory of atomic-scale devices |
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1.
T.
Yamada, "Nanoelectronics Devices with Precise Atomic-scale
Structures," NASA TechBriefs 26 (3), 43-44 (2002). (pp. 69-70 in
the linked pdf) |
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2.
T.
Yamada, "Substrate
Effects on Electronic Properties of Atomic Chains," J. Vac. Sci.
Technol. A 17 (4), 1463-1468
(1999). |
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3.
T.
Yamada, C. W. Bauschlicher,
and H. Partridge, "Substrate
for Atomic Chain Electronics," Phys. Rev. B 59 (23), 15430-15436 (1999). |
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4.
T.
Yamada, "Doping
Scheme of Semiconducting Atomic Chains," J. Vac. Sci. Technol. A 16 (3), 1403-1408 (1998). |
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5.
T.
Yamada, "Atomic
Wires and their Electronic Properties," J. Vac. Sci. Technol. B 15 (4), 1019-1026 (1997). |
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6.
T.
Yamada, "Transport
Properties along Finite-length Atomic Chain," J. Vac. Sci. Technol.
A 15 (3), 1280-1284 (1997). |
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7.
T.
Yamada, Y. Yamamoto, and W. A. Harrison, "Energy
Band of Manipulated Atomic Structures on an Insulator Substrate," J.
Vac. Sci. Technol. B 14 (2),
1243-1249 (1996). |
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Monte Carlo transport simulation in Si/SiGe
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1.
T.
Yamada and D. K. Ferry, "Monte
Carlo Simulation of Hole Transport in Strained Si1-xGex," Solid
State Electronics 38 (4), 881-890
(1995). |
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2.
T.
Yamada, J.-R. Zhou, H. Miyata, and D. K.
Ferry, "In-Plane
Transport Properties of Si/Si1-xGex Structure and Its FET Performance by
Computer Simulation," IEEE Trans. Electron Devices 41 (19), 1513-1522 (1994). |
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3.
T.
Yamada, H. Miyata, J.-R. Zhou, and D. K.
Ferry, "Monte
Carlo Study of the Low-Temperature Mobility of Electrons in a Strained Si
Layer Grown on a Si1-xGex Substrate," Phys. Rev. B 49 (3), 1875-1881 (1994). |
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4.
T.
Yamada, J.-R. Zhou, H. Miyata, and D. K.
Ferry, "Velocity
Overshoot in a Modulation Doped Si/ Si1-xGex Structure," Semicond. Sci. Technol. 9 (5S), 775- 777 (1994). |
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5.
H.
Miyata, T. Yamada, and D. K. Ferry, "Transport Properties of
Strained Si on Si1-xGex Substrate by Monte Carlo Simulation," in
Extended Abstracts of the 25th International Conference on Solid State
Devices and Materials (Business Center for Academic Societies Japan, Tokyo,
1993), pp. 916-918. |
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6.
H.
Miyata, T. Yamada, and D. K. Ferry, "Electron
Transport Properties of a Strained Si layer on a relaxed Si1-xGex Substrate
by Monte Carlo Simulation," Appl. Phys. Lett.
62 (21), 2661-2663 (1993). |
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Monte Carlo transport simulation in lateral surface superlattice |
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1.
T.
Yamada and D. K. Ferry, "Monte
Carlo simulation of diffusion of interacting electrons in lateral surface superlattices," Phys. Rev. B 48 (11), 8076-8082 (1993). |
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2.
T.
Yamada and D. K. Ferry, "Coupled
molecular-dynamics Monte Carlo study of the transport properties of lateral
surface superlattices," Phys. Rev. B 47 (11), 6416-6426 (1993). |
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3.
T.
Yamada and D. K. Ferry, "Magnetotransport properties of lateral-surface superlattices by molecular-dynamics Monte Carlo
simulation," Phys. Rev. B 47
(3), 1444-1452 (1993). |
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Transport modeling in quantum wire |
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1.
T.
Yamada and J. Sone,
"High-Field
Electron Transport in Quantum Wires Studied by Solution of the Boltzmann
Equation," Phys. Rev. B 40
(9), 6265- 6271 (1989). |
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2.
T.
Yamada and J. Sone,
"High-Field Electron Transport in Quantum Wires", in Extended
Abstracts of the International Conference on Electronic Materials, edited by
T. Sugano, R. P. H. Chang, H. Kamimura, I. Hayashi,
and T. Kamiya (Business Center for Academic
Societies Japan, Tokyo, Japan, 1988), pp. 213-216. |
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Meso-scale device simulation |
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1.
J. Sone, T. Kimura, and T. Yamada, "Analytical
Modeling of Small Semiconductor Devices Using the Relaxation Time
Approximation," in Extended Abstracts of the 19th International
Conference on Solid State Devices and Materials, (Business Center for
Academic Societies Japan, Tokyo, Japan, 1987), pp. 379-382. |
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Josephson circuit design and characterization |
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1.
J. Sone and T. Yamada, "Current
Injection Josephson Latch Employing One Flux Quantum I," J. Appl.
Phys. 59 (9), 3196-3201 (1986). |
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2.
T.
Yamada and J. Sone,
"Current
Injection Josephson Latch Employing One Flux Quantum II," J. Appl.
Phys. 59 (9), 3202-3207 (1986). |
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3.
T.
Yamada, J. Sone,
and S. Ema, "Current Injection Josephson Latch
Circuit," in Extended Abstracts of the 16th International Conference on Solid
State Devices and Materials, (Business Center for Academic Societies Japan,
Tokyo, Japan, 1984) pp. 623-626. |
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[2]
Patents
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1. T.
Yamada, "Atomic-scale Electronic Devices
and Methods of Fabrication," ARC-14246-1, 1999. |
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2. T.
Yamada and M. Kawanaka,
"Optical Detector with Memory Function" ( |
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3. M.
Kawanaka and T. Yamada, "Optical
Detector with Memory Function" ( |
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4. T.
Yamada, "Logic Circuit Using Superlattice Diode" ( |
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5. T.
Yamada, "Logic Circuit Using Superlattice Diode" ( |
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[3]
Invited talks
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1. T. Yamada, H. Yamada, A. J. Lohn, and N. P. Kobayashi, "Transport
in fused InP nanowire device in dark and under illumination: Coulomb
staircase scenario," (8106-19) SPIE Optics + Photonics 2011, |
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2. A. Orphanou, T.
Yamada*, and C. Y. Yang, "Modeling carbon nanotube
ultracapacitor," IEEE
Nanotechnology Materials and Devices Conference 2010 (NMDC 2010), |
[pdf]
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3.
T. Yamada, T. Saito, D. Fabris, and C.Y. Yang,
"Transport Phenomena in Carbon Nanostructures," IEEE International Nanoelectronics Conference, Hong Kong, Jan. 3-8, 2010,
Paper KS420. |
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4.
T. Yamada, T. Saito, D. Fabris, C. Y. Yang,
"Transport in Carbon Nanostructures," IEEE International Integrated
Reliability Workshop, South |
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5.
T. Yamada, T. Saito,
D. Fabris, P. Wilhite,
and C.Y. Yang, "Electrothermal Transport in Carbon Nanostructures,"
Proceedings of the ULSI Process Integration 6 Symposium, Electrochemical
Society Meeting, |
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6.
T. Yamada, T. Saito,
D. Fabris, and C.Y. Yang, "Electrothermal Transport in Carbon Nanofiber
Interconnects," Proceedings of the 16th International Symposium on
the Physical and Failure Analysis of Integrated Circuits, Suzhou, China, July
6-10, 2009, pp. 146-149. |
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7.
T. Yamada, T. Saito, D. Fabris, C. Y. Yang, "Effect
of Current Stressing on Horizontal Carbon Nanofiber
Interconnects," in 25th International VLSI Multilevel
Interconnection, |
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8. T.
Yamada, "Precise
Nanoelectronics with Adatom
Chains," in the 196th Electrochemical Society Meeting, |
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9. T.
Yamada, "Atomic
Wires and their Electronic Properties," in the 24th Annual
Conference on the Physics and Chemistry of Semiconductor Interfaces, Research
Triangle, NC, Jan. 12-15, 1997. |
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purposes in excess of fair use, that user may be liable for copyright
infringement. |
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[4]
Seminars
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1.
T.
Yamada, "Role of Electrostatic Interaction
in Molecular Electronic Devices - Coulomb Blockade and Schottky
Barrier Modulation with Charged/Polarized Molecules,"
Department of Chemistry, UC |
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2.
T.
Yamada, "Energy band and equivalent
circuit methods in nanoelectronics," Department
of Electrical Engineering, UC Santa Cruz, May 18, 2007. |
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3. T.
Yamada, "Energy Band and Equivalent Circuit
Methods for Nanoelectronics - Invent and Establish
Design Principle of Future Nanodevices",
Department of Electrical and Computer Engineering, |
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4. T.
Yamada, "Energy Band and Equivalent Circuit
Methods for Nanoelectronics",
Department of Electrical and Computer Engineering, |
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5. T.
Yamada, "Energy Band and Equivalent Circuit
Methods for Nanoelectronics",
Department of Electrical and Computer Engineering, |
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6.
T.
Yamada, "Energy Band and Equivalent Circuit
Methods for Nanoelectronics - for the Invention and
Design of Future Nanodevice,"
Department of Electrical and Computer Engineering, |
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7.
T.
Yamada, "Current-Voltage
Characteristics of Semiconducting Carbon Nanotubes",
Hewlett-Packard Laboratories, |
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8.
T.
Yamada, "Smallest Nanoelectronics
with Atomic Chains", Center for |
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9.
T.
Yamada, "Precise Nanoelectronics
with Adatom Chains", |
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10.
T.
Yamada, "Atomic Chains and their
Electronic Properties," Department of Electrical and Computer Engineering,
Northwestern University, March 26, 1997. |
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11.
T.
Yamada, "Manipulated Atomic
Structures on an Insulating Substrate", Applied Physics Department
Seminar, Ginzton Lab., |
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[5]
Conference Presentations
1.
Cesar Bartolo-Perez,
Yang Gao, Hilal Cansizoglu, Soroush Ghandiparsi, Ahmet Kaya, Ahmed Mayet, Ekaterina Ponizovskaya Devine, Toshishige
Yamada, Aly Elrefaie,
Shih-Yuan Wang, M Saif Islam, " Highly
efficient silicon solar cells designed with photon trapping micro/nano structures." SPIE 10349, Low-Dimensional
Materials and Devices 2017, 103491D Aug 25, 2017. 2.
Hilal Cansizoglu; Yang Gao; Cesar Bartolo Perez; Soroush Ghandiparsi; Ekaterina Ponizovskaya
Devine; Mehmet F. Cansizoglu;
Toshishige Yamada; Aly F. Elrefaie; Shih-Yuan
Wang; M. Saif Islam, "Photon-trapping micro/nanostructures for high linearity in ultra-fast
photodiodes." SPIE 10349, Low-Dimensional Materials and Devices 2017, 103491C Aug
25, 2017. 3.
Ahmed S zayet,
Hilal Cansizoglu, Yang Gao, Ahmet Kaya,
Soroush Ghandiparsi, Toshishige Yamada, Shih-Yuan Wang, M Saif Islam, "Inhibiting device degradation
induced by surface damages during top-down fabrication of semiconductor
devices with micro/nano-scale pillars and holes,"
SPIE Nanoscience+ Engineering,
99240C-99240C-7, 2016, San Diego, CA, Sept 27, 2017. 4.
A. Vyas, F. R. Madriz, N. Kanzaki,
P. Wilhite, J. T. Tan, T. Yamada, and C. Y.
Yang, "Improved RF
Characteristics of Carbon Nanotube Interconnects
with Deposited Tungsten Contacts," Techconnect World 2012, Santa Clara,
CA June 18-21, 2012. 5.
A. Vyas, F. R. Madriz, P. Wilhite,
T. Yamada, and C. Y. Yang, "RF characteristics of copper vias,"
(C5.5) in the Material Research Society Meeting Spring, San Francisco, CA,
Apr. 9-13, 2012. 6.
A. Vyas, N. Kanzaki, P. Wilhite, T. Yamada, and C. Y. Yang, "RF characteristics of carbon nanofiber with tungsten electrode contacts,"
in the 40th Annual Electronic Materials Symposium, Santa Clara, CA, Apr. 5,
2012. 7.
N. Kanzaki, P. Wilhite, S. Maeda, T.
Yamada, and C. Y. Yang, "Contact
improvement using E-beam and FIB deposited tungsten in carbon nanofiber interconnects," pp. 248-251 of the
Proceedings of IEEE
Nanotechnology Materials and Devices Conference 2011 (NMDC 2011), Monterey,
CA, Oct. 18-21, 2011. [pdf] 8.
J. Brunton, T. Yamada, and T. Weatherford, "TCAD
analysis of breakdown during voltage sweep in a carbon nanofiber
(CNF) interconnect," pp. 125-128
of the Proceedings of 2011 IEEE International Integrated Reliability Workshop
(IRW), South Lake Tahoe, CA, Oct. 16-20, 2011. 9.
N. Kanzaki, P. Wilhite, S. Maeda, T.
Yamada, and C. Y. Yang, "Electrical
characteristics of carbon nanofibers in air and
vacuum,"
in the Proceedings of IEEE 11th International Conference on
Nanotechnology, Portland, OR, Aug. 15-18, 2011. [pdf] 10.
N. Kanzaki, S. Maeda, P. Wilhite, T.
Yamada,T. Saito, and C. Y. Yang, "E-beam-Deposited
Tungsten Contacts for Carbon Nanofiber Interconnect
Test Devices," Microscopy and Microanalysis 2011, Nashville,
Tennessee, July 17, 2011. [pdf] 11.
N. Kanzaki, S. Maeda, P. Wilhite, T.
Yamada, and C. Y. Yang, "E-beam Deposited Tungsten Contacts for Nanocarbon Interconnect Test Devices," (O10.7) in
the Material Research Society Meeting Spring, San Francisco, CA, Apr. 26-29,
2011. 12.
A. Orphanou, T. Yamada, and C. Y.
Yang, "Modeling of nanocarbon
ultracapacitor," (M.10.9) in the Material
Research Society Meeting Spring, 13.
A. Vyas, F. R. Madriz, P. Wilhite,
T. Yamada, and C. Y. Yang, "Extraction of Copper-Via impedance from RF measurements,"
in the 39th Annual Electronic Materials Symposium, Santa Clara, CA, Apr. 15,
2011. 14.
T.
Yamada, "Nanocarbon ultracapacitors,"
in the US Airforce/Taiwan Nanoscience
Workshop, 15.
S. Maeda, T.
Yamada, H. Yabutani, T. Saito, and C. Y. Yang,
"W-deposited contacts for carbon nanofiber
using focused ion and electron beams," (P7.2) in the Material Research
Society Meeting Fall, Boston, MA, Nov. 29-Dec. 3, 2010. 16.
S. Maeda, T. Yamada, P. Wilhite, T.Saito, and C. Y. Yang, "W-deposited
contacts with carbon nanofiber using focused ion
and electron beams," pp. 125-127
of the Proceedings of IEEE
Nanotechnology Materials and Devices Conference 2010 (NMDC 2010), Monterey,
CA, Oct. 12-15, 2010. [pdf] |
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17.
H. Yamada, T.
Yamada, A. J. Lohn, and N. P. Kobayashi, "Reversible
suppression of Coulomb staircase in InP nanowires with light illumination," pp. 304-305 of the
Proceedings of IEEE
Nanotechnology Materials and Devices Conference 2010 (NMDC 2010), Monterey,
CA, Oct. 12-15, 2010. [pdf] 18.
F. R. Madriz, T. Yamada,
X. Sun, and C. Y. Yang, "Compact high-frequency circuit model for
one-dimensional carbon nanostructures," in the Proceedings of IEEE 10th
International Conference on Nanotechnology, Seoul, Korea, Aug.
17-20, 2010. |
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19.
H. Yamada, T.
Yamada, A. J. Lohn, and N. P. Kobayashi, "Coulomb
staircase in fused semiconducting InP nanowires under light illumination," SPIE Optics + Photonics 2010, San Diego, CA, Aug.
1-5, 2010. [pdf] 20.
H. Yamada, T.
Yamada, A. J. Lohn, and N. P. Kobayashi,
"Room-temperature Coulomb Staircase in Semiconducting InP Nanowires Modulated with
Light Illumination," (P3.3) in the Material Research Society Meeting
Spring, San Francisco, CA, Apr. 5-9, 2010. 21.
S. Maeda, T.
Yamada, P. Wilhite, T. Saito, and C. Y. Yang,
"Comparison of Tungsten Contacts formed by FIB and e-beam
Depositions," Microscopy and Microanalysis 2010, 22.
A. Orphanou, T. Yamada, and C. Y. Yang,
"Physical modeling carbon nanotube ultracapacitor," in the 1st International Conference
on Materials for Energy, Karlsruhe, Germany, July 4-8, 2010. 23.
A. Orphanou, T. Yamada, and C. Y. Yang,
"Science-based modeling of carbon nanotube ultracapacitor," in the 38th Annual Electronic
Materials Symposium, 24.
A. Orphanou, T. Yamada, and C. Y. Yang, "Modeling of
3-D energy storage in carbon nanotube ultracapacitor," (Y1.4) in the Material Research Society Meeting
Spring, 25.
N. Akhavantafti, T. Yamada, and C. Y. Yang,
"Analysis of Carbon Nanoribbons and Their FET
Applications," (S9.5) in the Material Research Society Meeting Spring, 26.
H. Yabutani, T. Yamada, T. Saito, and C. Y. Yang,
"Temperature Dependence of Carbon Nanofiber
Resistance," (NS+BI-MoA-8)
in the 56 International Symposium of American Vacuum Society Meeting, 27.
H. Yabutani, T. Yamada, T. Saito, and C. Y. Yang,
"Effect of Electrode Contacts on Transport in Carbon Nanofiber
Interconnects," (F-3-1L), International Conference on Solid State
Devices and Materials (SSDM 2009), Sendai, Japan, Oct. 7-9, 2009. 28.
H. Yabutani, T. Yamada, C. Y. Yang, and T. Saito,
"Joule-heating
dependence of carbon nanofiber resistance,"
(ThP2-2.2), IEEE
Nanotechnology Materials and Devices Conference 2009 (NMDC 2009), 29.
T. Saito, H. Yabutani, T. Yamada, P. Wilhite,
and C. Y. Yang, "Electrode
and substrate contacts in carbon nanofiber
interconnects," pp. 125-127 of the Proceedings of IEEE International
Interconnect Technology Conference,
Burlingame, CA, June 1-3, 2009. [pdf] 30.
T. Yamada, T. Saito, D. Fabris, P. Wilhite,
and C. Y. Yang, "Modeling of Heat Transport along Horizontal Carbon Nanofiber Bridging Two Electrodes," (T8.3) in the Material
Research Society Spring 2009 Meeting,
San Francisco, CA, Apr. 13-17, 2009. 31.
T. Yamada, T. Saito, D. Fabris, P. Wilhite,
and C. Y. Yang, "Modeling of Electrothermal
Performance for Carbon Nanofibers," in US Airforce/Taiwan Nanoscience
Workshop, San Francisco, CA, Apr. 21-22, 2009. 32.
A. Orphanou, T. Yamada, and C. Y. Yang, "Modeling of
3-D energy storage in carbon nanotube ultracapacitor," (P6.6) in the Material Research Society Spring
2009 Meeting, San Francisco, CA, Apr.
13-17, 2009. 33.
W. Wu, S. Krishnan, K. Li, X.
Sun, R. Wu, T. Yamada and C. Y. Yang, "Extracting
Resistances of Carbon Nanostructures in Vias,"
pp.
43-45 of the Proceedings of IEEE International Conference on Microelectronic Test Structures, 2009.
(ICMTS 2009), 34.
D. Fabris, T.Saito, T. Yamada, X. Sun, P. Wilhite, and C. Y. Yang, "Current capacity and thermal
transport in carbon nanofiber interconnects,"
pp. 848-853 of Proceedings of the 2009 4th IEEE
International Conference on Nano/Micro Engineered
and Molecular Systems (NEMS '09), Shenzen, China,
Jan. 5-8, 2009. 35.
T. Yamada, T. Saito,
P. Wilhite, X. Sun, D. Fabris,
and C. Y. Yang, "Tunneling
transport for metal - carbon Nanofiber - metal
structures," in Material Research Society Fall
2008 Meeting, Boston, MA, Dec. 1-5, 2008. 36.
T. Saito, T. Yamada, D. Fabris , H. Kitsuki,
P.Wilhite, and C. Y. Yang, "Improved contact for thermal and electrical transport in
carbon nanofiber interconnects," in Material Research Society
Fall 2008 Meeting, Boston, MA, Dec. 1-5, 2008. 37.
T. Saito, H. Kitsuki,
M. Suzuki, T. Yamada, D. Fabris, and C. Y.
Yang, "Thermal and
electrical transport in carbon Nanofiber
interconnects," in the Proceedings of American Society of
Mechanical Engineers (ASME) International Mechanical Engineering Congress
& Exposition, Boston, MA, Nov. 2-6, 2008. |
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38.
H. Kitsuki, T.
Saito, T. Yamada, D. Fabris, P. Wilhite, M. Suzuki and C. Y. Yang, "Analysis
of carbon-based interconnect breakdown," in the Proceedings of
9th
International Conference on Solid-State and Integrated-Circuit
Technology, 2008. ICSICT 2008., |
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39.
T. Yamada, M. Suzuki,
H. Kitsuki, T. Saito, D. Fabris,
X. Sun, P. Wilhite, and C. Y. Yang, "Electron
Transport across Interfaces in Horizontal Carbon Nanofiber
Interconnects", pp. 263-266 in the Proceedings of IEEE 8th
International Conference on Nanotechnology, Arlington, TX, Aug.
18-21, 2008. [pdf] 40.
T. Saito, H. Kitsuki, M. Suzuki, T. Yamada, D. Fabris, and C. Y. Yang, "Thermal and Electrical
Transport in Carbon Nanofiber Interconnects,"
pp. 288-290 in the Proceedings of IEEE 8th
International Conference on Nanotechnology, Arlington, TX, Aug.
18-21, 2008. 41.
D. Fabris, H. Kitsuki, T. Yamada,
X. Sun, J. Gonzalez, and C. Y. Yang, "Temperature modeling for carbon Nanofiber breakdown," in the Proceedings of ASME
Summer Heat Transfer Conference, Jacksonville, FL, Aug. 10-14, 2008. 42.
T. Saito, T. Yamada, H. Kitsuki,
P. Wilhite, D. Fabris,
and C. Y. Yang, "Improved contacts for thermal and electrical transport
in carbon nanofiber," Microscopy and
Microanalysis 2008 Meeting, Albuquerque, NM, Aug. 1-5, 2008. 43.
H. Kitsuki, T. Saito, T.
Yamada, D. Fabris, P. Wilhite,
and C. Y. Yang, "Current-induced
breakdown of carbon nanofiber interconnects,"
pp.1-4 in the Proceedings of the 15th International Symposium on the Physical
and Failure Analysis of Integrated Circuits (IPFA), Singapore, July 7-11,
2008. [pdf] 44.
H. Kitsuki, T.
Saito, T. Yamada, D. Fabris, J. R. Jameson,
P. Wilhite, M. Suzuki, C. Y. Yang, "Current-carrying
capability of carbon Nanofiber interconnects," pp. 43-45 in the Proceedings
of IEEE International
Interconnect Technology Conference,
Burlingame, CA, June 1-4, 2008. [pdf] 45.
T. Yamada, D. Fabris, J. Gonzalez, and C. Y. Yang, "Thermoelectric effects in electron
tunneling between carbon nanofiber and gold,"
Material Research Society Spring Meeting, San Francisco, CA, March 24-28,
2008. 46.
H. Kitsuki, T.
Saito, P. Wilhite, T. Yamada and Cary Y
Yang, "Carbon Nanofibers under High-Current and Thermal Stress," Material Research Society Spring
Meeting, 47.
H. Kitsuki, M.
Suzuki, Q. Ngo, K. Gleason, P. Wilhite, T.
Yamada, A.M. Cassell, J. Li, and C.Y. Yang, "Carbon Nanofibers
under High-current Stress for Interconnect Applications," Twenty fourth International
VLSI Multilevel Interconnection Conference Proceedings, Fremont, CA, Sept.
24-27, 2007. 48.
K. Gleason, Q. Ngo, T. Yamada, A.M. Cassell, J. Li and C.Y. Yang, "Temperature-Dependent
Carbon Nanofiber Conductance Model," Material
Research Society Fall Meeting, Boston, MA, Nov. 26-30, 2007. 49.
B. Sadrabadi, T. Yamada,
D. Fabris, J. Gonzalez, P. Wilhite
and C.Y. Yang, "Electrothermal
Characterization of Metal-Carbon Nanofiber
Junctions for Interconnect Applications. II15.36, Material Research Society
Fall Meeting, 50.
Q. Ngo, T. Yamada, K. Gleason, A.M. Cassell, and C.Y. Yang, "Electrothermal Modeling of
Transport in Carbon Nanostructures,"
Proceedings of IEEE NANO 2007, 51.
M. Suzuki, H. Kitsuki, Q. Ngo, T.
Yamada, K. Gleason, Y. Ominami, B. Roth, M.
Betts, A.M. Cassell, J. Li and C.Y. Yang,
"Image Formation Mechanisms in Scanning Electron Microscopy of Carbon Nanofibers on Substrate," in Microscopy and
Microanalysis 2007 Meeting, Ft. Lauderdale, FL, Aug. 5-9, 2007. 52.
M. Suzuki, T. Ogashiwa, S.
Takeuchi, M. Sato, Q. Ngo, T. Yamada, A.M. Cassell,
J. Li and C.Y. Yang, "Structural
Characterization of Carbon Nanofibers using
Scanning Electron Microscopy,"
Materials Research Society Fall Meeting, Boston, MA, Nov. 27-30,
2007. 53.
M. Suzuki, Y. Ominami,
Q. Ngo, T. Yamada, B. Roth, M. Betts, A.M. Cassell,
J. Li, and C.Y. Yang, "Bright
Contrast Imaging of Carbon Nanofiber-Substrate
Interface using Scanning Electron Microscopy," Materials Research Society Fall Meeting, Boston, MA, Nov.
27-Dec. 1, 2006, an extended abstract in MRS Symp. Proc. 963, 0963-Q05-13 (2007), (collaboration with |
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54.
Q.
Ngo, T. Yamada, K. Gleason, M. Suzuki, H. Kitsuki,
A.M. Cassell, and C.Y. Yang, "Electrothermal Transport in Carbon
Nanostructures," pp.155-158 of the Proceedings of the IEEE14th International
Symposium on the Physical and Failure Analysis of Integrated Circuits (IPFA)
2007, Bangalore, India, July 11-13, 2007. 55.
Q.L. Ye, R.H. Scheffler, T.
Yamada, and H. Liu, , "Single Crystal InSb Nanowires: Synthesis,
Characterization, Properties and Applications", AIChE
Annual Meeting, 56.
Q.L. Ye, T. Yamada, H. Liu, N. Mingo, R.H. Scheffler, R.L. Leverenz, and
H. Yamada, "Single Crystal InSb Nanowires: Synthesis, Characterization, Properties and
Applications," NSTI Nanotech, Boston, MA, May 7-11, 2006 57.
Q.L. Ye, T. Yamada, H. Liu, N. Mingo, R.H. Scheffler, and R.L. Leverenz,
"Single Crystal InSb Nanowires:
Synthesis, Characterization, Properties and Applications," Material
Research Society Spring Meeting, San Francisco, CA, April 17-21, 2006, an
extended abstract in MRS Symp. Proc. 940, 0940-P07-05 (2006) (collaboration
within 58.
T.
Yamada, "Equivalent Circuit Modeling
of Carbon Nanotube Schottky
Barrier Modulation by Polarized Gases," in the American Physical Society
March Meeting, 59.
T.
Yamada, "Modeling of gas-modulated
carbon nanotube Schottky
barrier," in the 51st American Vacuum Society Meeting, 60.
T.
Yamada, "Modeling of carbon nanotube Schottky barrier in
gaseous environment," Material Research Society
Spring Meeting, |
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61.
T.
Yamada, "Modeling
of Schottky barrier reduction for holes in air,"
pp.244-247 of the Proceedings of IEEE Nano2003, 62.
D. M.
Chen and T. Yamada, "Quantum size effects in nanoscale
metallic structures," pp.52-55 of the Proceedings of IEEE Nano2003, |
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63.
T.
Yamada and M. Meyyappan,
"Nanotechnology
in the development of future computing systems," pp.120-124 of the
Proceedings of IEEE 14th international conference on application-specific
systems, architectures and processors (ASAP), Hague, the 64.
T.
Yamada, "Modeling of carbon nanotube Schottky barrier
modulation due to oxidation," in the APS March Meeting, 65.
H.
Okamoto, D. M. Chen, and T. Yamada, "Competing classical and
quantum effects in shape relaxation of a metallic nanostructure," in the
APS March Meeting, 66.
T.
Yamada, "Modeling of gate bias
modulation in carbon nanotube field-effect
transistor -the influence of oxidation-," in the 49th American Vacuum
Society Meeting, Denver, CO, Nov. 3-8, 2002. 67.
H.
Okamoto, D. M. Chen, and T. Yamada, "Competing classical and
quantum effects in shape relaxation of a metallic island," in the 49th
American Vacuum Society Meeting, Denver, CO, Nov.3-8, 2002. 68.
T.
Yamada, "Analysis of carbon nanotube metal-semiconductor diode device with gate bias
modulation," in the 48th American Vacuum Society Meeting, San Francisco,
CA, Oct. 29-Nov. 2, 2001. 69.
T.
Yamada, "Transport modeling for
metallic electrode - semiconducting nanotube
systems," in the 200th Electrochemical Society Meeting, 70.
T.
Yamada, "Metallic electrode -
semiconducting nanotube junction model,"
American Physical Society March Meeting, 71.
T.
Yamada, "Analysis of long-channel
carbon nanotube field-effect-transistors - role of
metal-semiconductor contact," in the 47th American Vacuum Society
Meeting, 72.
T.
Yamada, "Analysis of carbon nanotube field-effect-transistors," in the 46th
American Vacuum Society Meeting, 73.
T.
Yamada, "Substrate Effects on
Electronic Properties of Atomic Chains," in the 45th American Vacuum
Society Meeting, 74.
T. Yamada,
"Substrate Effects on Electronic Properties of Adatom
Chains," in the 6th Foresight Conference, 75.
T.
Yamada, "Smallest Nanoelectronics
with Atomic Chains" in the Nanospace 98, NASA
Johnson Space Center, Houston, TX, Nov. 2-4, 1998. 76.
T.
Yamada, "Atomic Chain
Electronics" in the 35th Science and Engineering Society Meeting,
Washington State University, Pullman, WA, Sept. 27-29, 1998. 77.
T.
Yamada, "Doping of semiconducting Mg
atomic chains," in the 5th Foresight Conference, 78.
T.
Yamada, "Doping of semiconducting Mg
chains in atomic chain electronics," Tu-3.6 in the 2nd International
Conference on Surfaces and Interfaces of Mesoscopic
Devices, Maui, HI, Dec. 8-12, 1997. 79.
T.
Yamada, "Doping of semiconducting
atomic chains," NS-MoA2 in the 44 American Vacuum Society Meeting, 80.
T.
Yamada, "Transport Properties along
Finite-length Atomic Chain," in the 43rd American Vacuum Society
Meeting, Philadelphia, PA, Oct. 14-18, 1996 |
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81.
T.
Yamada, Y. Yamamoto, and W. A. Harrison,
"Energy Band of Manipulated Atomic Structures on an Insulator Substrate,"
in the STM '95, 82.
H.
Miyata, T. Yamada, and D. K. Ferry, "Transport Properties of
Strained Si on Si(1-x)Ge(x) Substrate by Monte
Carlo Simulation," in the 25th International Conference on Solid State
Devices and Materials, Makuhari, Japan, 1993. 83.
H.
Miyata, T. Yamada, and D. K. Ferry, "Transport Properties of
Strained Si on Si(1-x)Ge(x) Substrate by Monte
Carlo Simulation", in the American Physical Society March Meeting,
Seattle, WA, March, 1993. 84.
T.
Yamada and D. K. Ferry, "Transport
Properties of Lateral Surface Superlattices",
in the International Workshop on Computational Electronics, University of
Illinois at Urbana-Champaign, Champaign, IL, May 28-29, 1992. 85.
T.
Yamada and D. K. Ferry, "Electron Magnetotransport in Lateral Surface Superlattices
by Monte Carlo Simulation," in the International Symposium on
Nanostructures and Mesoscopic Systems, Santa Fe,
NM, May 20-24, 1991. 86.
T.
Yamada and D. K. Ferry, "Monte Carlo
Simulation of Electron Magnetotransport in Quantum
Dot Arrays", in the Seventh International Conference on the Numerical
Analysis of Semiconductor Devices and Integrated Circuits, Copper Mountain,
CO, April 8-12, 1991. 87.
T.
Yamada, A. M. Kriman,
and D. K. Ferry, "Monte Carlo Simulation of Lateral Surface Superlattices in a Magnetic Field," in the NATO
Advanced Study on the Physics of Granular Nanoelectronics,
Il Ciocco, Italy, July 23- August 3, 1990. 88.
T.
Yamada, A. M. Kriman,
and D. K. Ferry, "Monte Carlo Simulation of Lateral Surface Superlattices in a Magnetic Field," in the Workshop
on Computational Electronics, University of Illinois at Urbana-Champaign,
Champaign, IL, May 21-23, 1990. 89.
T.
Yamada and J. Sone,
"High-field Electron Transport in Quantum Wires," in the International
Conference on Electronic Materials, Tokyo, Japan, 1988. 90.
J. Sone, T. Kimura, and T. Yamada, "Analytical
Modeling of Small Semiconductor Devices Using the Relaxation Time
Approximation", in the 19th International Conference on Solid State Devices
and Materials, 91.
T.
Yamada and J. Sone,
"High-field Electron Transport in Quantum Wires," in the American
Physical Society March Meeting, New Orleans, LA, 1987. 92.
T.
Yamada, J. Sone,
and S. Ema, "Current Injection Josephson
Latch," in the 16th International Conference on Solid State Devices and
Materials, Kobe, Japan, 1984. |
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Appendix:Due to the confusing notations for
Si/SiGe, there are a few title versions for these SiGe papers. The treatment of hyphen is similar. |
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T.
Yamada and D. K. Ferry, "Monte Carlo
Simulation of Hole Transport in Strained SiGe,"
T.
Yamada and D. K. Ferry, "Monte Carlo
simulation of hole transport in strained Si< sub> 1−
x</sub> Ge< sub> x</sub>,"
Solid State Electronics 38 (4),
881-890 (1995). T. Yamada
and D. K. Ferry, "MONTE-CARLO
SIMULATION OF HOLE TRANSPORT IN STRAINED SI1-XGEX," |
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T.
Yamada, J.-R. Zhou, H. Miyata, and D. K.
Ferry, "In-Plane
Transport Properties of Si/SiGe Structure and Its
FET Performance by Computer Simulation," IEEE Trans. Electron
Devices 41 (19), 1513-1522 (1994). T.
Yamada, J.-R. Zhou, H. Miyata, and D. K.
Ferry, "In-Plane
Transport Properties of Si/Si<sub>1-x</sub>Ge<sub>x</sub>
Structure and Its FET Performance by Computer Simulation," IEEE
Trans. Electron Devices 41 (19),
1513-1522 (1994). T. Yamada,
J.-R. Zhou, H. Miyata, and D. K. Ferry, "INPLANE
TRANSPORT-PROPERTIES OF SI/SI1-XGEX STRUCTURE AND ITS FET PERFORMANCE BY COMPUTER-SIMULATION,"
IEEE Trans. Electron Devices 41
(19), 1513-1522 (1994). |
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T.
Yamada, H. Miyata, J.-R. Zhou, and D. K.
Ferry, "Monte
Carlo Study of the Low-Temperature Mobility of Electrons in a Strained Si
Layer Grown on a SiGe Substrate," Phys.
Rev. B 49 (3), 1875-1881 (1994). |
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T. Yamada,
J H. Miyata, J.-R. Zhou, and D. K. Ferry, "Monte
Carlo study of the low-temperature mobility of electrons in a strained Si
layer grown on a Si_ {1-x} Ge_ {x} substrate,"
Phys. Rev. B 49 (3), 1875-1881
(1994). T. Yamada,
H. Miyata, J.-R. Zhou, and D. K. Ferry, "MONTE-CARLO
STUDY OF THE LOW-TEMPERATURE MOBILITY OF ELECTRONS IN A STRAINED SI LAYER
GROWN ON A SI1-XGEX SUBSTRATE," Phys. Rev. B 49 (3), 1875-1881 (1994). |
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T.
Yamada, J.-R. Zhou, H. Miyata, and D. K.
Ferry, "Velocity
Overshoot in a Modulation Doped Si/ SiGe Structure,"
Semicond. Sci. Technol. 9 (5S), 775- 777 (1994). T. Yamada,
J.-R. Zhou, H. Miyata, and D. K. Ferry, "Velocity
Overshoot in a Modulation Doped Si/ Si<sub>1-x</sub>Ge<sub>x</sub> Structure," Semicond. Sci. Technol. 9 (5S), 775- 777 (1994). T. Yamada,
J.-R. Zhou, H. Miyata, and D. K. Ferry, "VELOCITY
OVERSHOOT IN A MODULATION-DOPED SI/SI1-XGEX STRUCTURE," Semicond. Sci. Technol. 9 (5S), 775- 777 (1994). |
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H.
Miyata, T. Yamada, and D. K. Ferry, "Electron
Transport Properties of a Strained Si layer on a relaxed SiGe
Substrate by Monte Carlo Simulation," Appl. Phys. Lett. 62 (21),
2661-2663 (1993). H. Miyata, T.
Yamada, and D. K. Ferry, "Electron
Transport Properties of a Strained Si layer on a relaxed
Si<sub>1-x</sub>Ge<sub>x</sub>
Substrate by Monte Carlo Simulation," Appl. Phys. Lett. 62 (21),
2661-2663 (1993). H. Miyata, T.
Yamada, and D. K. Ferry, "ELECTRON-TRANSPORT
PROPERTIES OF A STRAINED SI LAYER ON A RELAXED SI1-XGEX SUBSTRATE BY
MONTE-CARLO SIMULATION," Appl. Phys. Lett.
62 (21), 2661-2663 (1993). |
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T.
Yamada, "Modeling
of electronic transport in scanning tunneling microscope tip – carbon nanotube systems,"
Appl. Phys. Lett. 78 (12), 1739-1741 (2001). T. Yamada,
"Modeling
of electronic transport in scanning tunneling microscope tip-carbon nanotube systems,"
Appl. Phys. Lett. 78 (12), 1739-1741 (2001). T. Yamada,
"Modeling
of electronic transport in scanning tunneling microscope tip - carbon nanotube systems,"
Appl. Phys. Lett. 78 (12), 1739-1741 (2001). |
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