Dual computational basis qubit in semiconductor heterostructures
Identifieur interne : 00C054 ( Main/Repository ); précédent : 00C053; suivant : 00C055Dual computational basis qubit in semiconductor heterostructures
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Abstract
Advances in quantum computing have revealed computing capabilities that threaten to render many of the public encryption codes useless against the hacking potential for a quantum-mechanical-based computing system. This potential forces the study of viable methods to keep vital information secure from third-party eavesdropping. In this letter, we propose a coupled electronic waveguide device to create a qubit with two computational bases. The characteristics we have obtained by simulating such devices suggest a possible way of implementing quantum cryptography in semiconductor device architectures. © 2003 American Institute of Physics.
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<front><div type="abstract" xml:lang="en">Advances in quantum computing have revealed computing capabilities that threaten to render many of the public encryption codes useless against the hacking potential for a quantum-mechanical-based computing system. This potential forces the study of viable methods to keep vital information secure from third-party eavesdropping. In this letter, we propose a coupled electronic waveguide device to create a qubit with two computational bases. The characteristics we have obtained by simulating such devices suggest a possible way of implementing quantum cryptography in semiconductor device architectures. © 2003 American Institute of Physics.</div>
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