| Document Type
|
:
|
BL
|
| Record Number
|
:
|
747622
|
| Doc. No
|
:
|
b567573
|
| Main Entry
|
:
|
Nicolas Lorente, Christian Joachim.
|
| Title & Author
|
:
|
Architecture and design of molecule logic gates and atom circuits : : proceedings of the 2nd AtMol European Workshop\ Nicolas Lorente, Christian Joachim.
|
| Publication Statement
|
:
|
Heidelberg ; New York ; Dordrecht ; London : Springer, [, 2013]
|
| Series Statement
|
:
|
Advances in atom and single molecule machines.
|
| Page. NO
|
:
|
ix, 290 pages : illustrations (some color) ; 24 cm
|
| ISBN
|
:
|
364233136X
|
|
|
:
|
: 3642331378
|
|
|
:
|
: 9783642331367
|
|
|
:
|
: 9783642331374
|
| Contents
|
:
|
Architecture at the End of Moore.- MOLECULAR DEVICES FOR CLASSICAL LOGIC.- Towards Post-CMOS Molecular logic devices.- Quantum interference effects in electron transport: How to select suitable molecules for logic gates and thermoelectric devices.- Mapping electron transport pathways in complex systems.- Switching mechanisms for single molecule logic gates.- PTM radicals for molecular-based electronic devices.- Vibrational heating in Single Molecule.- Heat Dissipation in Molecular Junctions: linking Molecules to Macroscopic Contacts.- MOLECULE-CIRCUITS.- Classical Logic in a Single Molecule.- Modelling and simulation of electron transport at the nanoscale: illustrations in low-dimensional carbon nanostructures.- First-principles simulations of electronic transport in dangling-bond wires.- Dangling Bond Logic: Designing Boolean Logic Gates on a Si(001)-(2x1):H surface.- Large dangling bond electronic circuits with supporting surface and contacting nano-pads.- A model for inelastic transport through atomic surface wires.- QUANTUM CONTROLLED LOGIC GATES.- Single molecule can calculate 1000 times faster than supercomputers.- Realization of complex logic operations at the nanoscale.- Binary full adder in a single quantum system parallelization using the Quantum Hamiltonian Computing approach.- MOLECULAR QUBITS.- A controlled Quantum SWAP logic gate in a 4-Center metal complex.- Molecular prototypes for spin-based quantum logic gates.- Implementing quantum gates and algorithms in ultracold polar molecules..- Towards Post-CMOS Molecular logic devices.- Quantum interference effects in electron transport: How to select suitable molecules for logic gates and thermoelectric devices.- Mapping electron transport pathways in complex systems.- Switching mechanisms for single molecule logic gates.- PTM radicals for molecular-based electronic devices.- Vibrational heating in Single Molecule.- Heat Dissipation in Molecular Junctions: linking Molecules to Macroscopic Contacts.- MOLECULE-CIRCUITS.- Classical Logic in a Single Molecule.- Modelling and simulation of electron transport at the nanoscale: illustrations in low-dimensional carbon nanostructures.- First-principles simulations of electronic transport in dangling-bond wires.- Dangling Bond Logic: Designing Boolean Logic Gates on a Si(001)-(2x1):H surface.- Large dangling bond electronic circuits with supporting surface and contacting nano-pads.- A model for inelastic transport through atomic surface wires.- QUANTUM CONTROLLED LOGIC GATES.- Single molecule can calculate 1000 times faster than supercomputers.- Realization of complex logic operations at the nanoscale.- Binary full adder in a single quantum system parallelization using the Quantum Hamiltonian Computing approach.- MOLECULAR QUBITS.- A controlled Quantum SWAP logic gate in a 4-Center metal complex.- Molecular prototypes for spin-based quantum logic gates.- Implementing quantum gates and algorithms in ultracold polar molecules.
|
| Subject
|
:
|
Logic design -- Congresses.
|
| Subject
|
:
|
Molecular electronics -- Congresses.
|
| Subject
|
:
|
Molecular integrated circuits -- Congresses.
|
| LC Classification
|
:
|
TK7874.8N536 2013
|
| Added Entry
|
:
|
C Joachim
|
|
|
:
|
Nicolas Lorente
|