Two-qubit copying machine for economical quantum eavesdropping
- 1 October 1999
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 60 (4), 2764-2776
- https://doi.org/10.1103/physreva.60.2764
Abstract
We study the mapping that occurs when a single qubit in an arbitrary state interacts with another qubit in a given, fixed state resulting in some unitary transformation on the two qubit system that, in effect, makes two copies of the first qubit. The general problem of the quality of the resulting copies is discussed using a special representation, a generalization of the usual Schmidt decomposition, of an arbitrary two-dimensional subspace of a tensor product of two two-dimensional Hilbert spaces. We exhibit quantum circuits that can reproduce the results of any two-qubit copying machine of this type. A simple stochastic generalization (using a classical random signal) of the copying machine is also considered. These copying machines provide simple embodiments of previously proposed optimal eavesdropping schemes for the BB84 and B92 quantum cryptography protocols.Keywords
Other Versions
This publication has 14 references indexed in Scilit:
- Optimal copying of one quantum bitPhysical Review A, 1998
- Optimal universal and state-dependent quantum cloningPhysical Review A, 1998
- Optimal eavesdropping in quantum cryptography. II. A quantum circuitPhysical Review A, 1997
- Consistent histories and quantum reasoningPhysical Review A, 1996
- Semiclassical Fourier Transform for Quantum ComputationPhysical Review Letters, 1996
- Quantum-state disturbance versus information gain: Uncertainty relations for quantum informationPhysical Review A, 1996
- Quantum cryptographyContemporary Physics, 1995
- Quantum CryptographyScientific American, 1992
- Quantum cryptography using any two nonorthogonal statesPhysical Review Letters, 1992
- A single quantum cannot be clonedNature, 1982