Screen LibraryArchitecture and design of molecule logic gates and atom circuits Proceedings of the 2nd AtMol European Workshop /
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| Corporate Authors: | ; |
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| Group Author: | ; |
| Published: |
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| Literature type: | Electronic eBook |
| Language: | English |
| Series: |
Advances in atom and single molecule machines,
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| Subjects: | |
| Online Access: |
http://dx.doi.org/10.1007/978-3-642-33137-4 |
| Item Description: | International conference proceedings. |
| Carrier Form: | 1 online resource (ix, 290 p.) : col. ill. |
| Bibliography: | Includes bibliographical references and index. |
| ISBN: |
9783642331374 (electronic bk.) 3642331378 (electronic bk.) |
| Index Number: | TK7874 |
| CLC: | TN01-532 |
| Contents: |
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 Switches / Heat Dissipation in Molecular Junctions: Linking Molecules to Macroscopic Contacts / MOLECULE-CIRCUITS -- Classical Logic in a Single Molecule / Modeling and Simulation of Electron Transport at the Nanoscale: Illustrations in Low-Dimensional Carbon Nanostructures / SURFACE DANGLING BOND CIRCUITS -- First-Principles Simulations of Electronic Transport in Dangling-Bond Wires / Dangling-Bond Logic: Designing Boolean Logic Gates on a Si(001)-(2x1):H Surface / Dangling-Bond Wire Circuits on a Si(001)-(2x1):H Surface with Their Contacting Nanopads / Theory of Inelastic Transport Through Atomic Surface Wires / QUANTUM CONTROLLED LOGIC GATES -- Single Molecule Can Calculate 1,000 Times Faster than Supercomputers / Realization of Complex Logic Operations at the Nanoscale / Binary Full-Adder in a Single Quantum System / MOLECULAR QUBITS -- A Controlled Quantum SWAP Logic Gate in a 4-center Metal Complex / Artificial Molecular Nanomagnets as Spin-Based Quantum Logic Gates / Toward a Molecular Ion Qubit / Implementing Quantum Gates and Algorithms in Ultracold Polar Molecules / |