Professor Artur Ekert FRS

Quanta, ciphers, and computers

Chapter in The New Physics, Cambridge University Press (CUP) (2006) 268-283

Experimental quantum multimeter and one-qubit fingerprinting (vol 74, pg 042319, 2006)

PHYSICAL REVIEW A 74:4 (2006) ARTN 049907

Authors:

Jiangfeng Du, Ping Zou, Xinhua Peng, Daniel KL Oi, LC Kwek, CH Oh, Artur Ekert

Direct measurement of nonlinear properties of bipartite quantum states.

Phys Rev Lett 95:24 (2005) 240407

Authors:

Fabio Antonio Bovino, Giuseppe Castagnoli, Artur Ekert, Paweł Horodecki, Carolina Moura Alves, Alexander Vladimir Sergienko

Abstract:

Nonlinear properties of quantum states, such as entropy or entanglement, quantify important physical resources and are frequently used in quantum-information science. They are usually calculated from a full description of a quantum state, even though they depend only on a small number of parameters that specify the state. Here we extract a nonlocal and a nonlinear quantity, namely, the Renyi entropy, from local measurements on two pairs of polarization-entangled photons. We also introduce a "phase marking" technique which allows the selection of uncorrupted outcomes even with nondeterministic sources of entangled photons. We use our experimental data to demonstrate the violation of entropic inequalities. They are examples of nonlinear entanglement witnesses and their power exceeds all linear tests for quantum entanglement based on all possible Bell-Clauser-Horne-Shimony-Holt inequalities.

Direct measurement of non-linear properties of bipartite quantum states

(2005)

Authors:

Fabio Antonio Bovino, Giuseppe Castagnoli, Artur Ekert, Pawel Horodecki, Carolina Moura Alves, Alexander Vladimir Sergienko

Quantum Cryptography

Chapter in Quantum Communications and Cryptography, Taylor & Francis 20052673 (2005) 1-15