Nonlinear quantum transport in low-dimensional electronic devices

Topological insulator (TI) is a peculiar phase of matter exhibiting excellent quantum transport properties with potential applications in lower-power-consuming electronic devices.

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Quantum state reconstruction and photon number statistics for low dimensional semiconductor opto-electronic devices

Quantum Nanophotonics ◽

10.1117/12.2273855 ◽

2017 ◽

Cited By ~ 1

Author(s):

Ulrike Woggon ◽

Fabian Boehm ◽

Nina Owschimikow ◽

Nicolai B. Grosse ◽

Mirco Kolarczik ◽

...

Keyword(s):

Quantum State ◽

Electronic Devices ◽

Photon Number ◽

State Reconstruction ◽

Quantum State Reconstruction ◽

Low Dimensional

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R-matrix Theory of Quantum Transport in Nanoscale Electronic Devices

Applied Physics Express ◽

10.1143/apex.1.063001 ◽

2008 ◽

Vol 1 ◽

pp. 063001 ◽

Cited By ~ 6

Author(s):

Gennady Mil'nikov ◽

Nobuya Mori ◽

Yoshinari Kamakura ◽

Tatsuya Ezaki

Keyword(s):

Quantum Transport ◽

Matrix Theory ◽

Electronic Devices ◽

R Matrix

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Wigner Function Model of Nonlinear Quantum Transport in a Split-Gate Electron Waveguide

10.7567/ssdm.1992.s-iii-8 ◽

1992 ◽

Author(s):

H. Tsuchiya ◽

M. Ogawa ◽

T. Miyoshi

Keyword(s):

Wigner Function ◽

Quantum Transport ◽

Function Model ◽

Nonlinear Quantum ◽

Electron Waveguide

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Low Dimensional Composite Nanomaterials: Theory and Applications

Advances in Science and Technology ◽

10.4028/www.scientific.net/ast.55.74 ◽

2008 ◽

Vol 55 ◽

pp. 74-83 ◽

Cited By ~ 3

Author(s):

Alexander Quandt ◽

Maurizio Ferrari

Keyword(s):

Transport Properties ◽

Dominant Role ◽

Electronic Devices ◽

Ballistic Transport ◽

Electronic Systems ◽

Composite Nanomaterials ◽

Direct Transfer ◽

Theoretical Concepts ◽

Technological Concepts ◽

Low Dimensional

Nanosized electronic systems are characterized by ballistic transport properties, which implies that the wave character of the electron plays a dominant role in such systems. We summarize some of the basic theoretical concepts involved, and point out various analogies between scalar electronic waves and electromagnetic vector waves. Those analogies should allow for a direct transfer of key technological concepts from optics or photonics to nanoelectronics. As an example, we discuss the concept of electronic metamaterials, and suggest a possible realization of nanometer sized electronic devices, based on novel low-dimensional carbon and boron nanomaterials.

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