P. Nogueira scite author profile

We introduce a partial state fidelity approach to quantum phase transitions. We consider a superconducting lattice with a magnetic impurity inserted at its center, and look at the fidelity between partial ͑either one-site or two-site͒ quantum states. In the vicinity of the point of the quantum phase transition, we observe a sudden drop of the fidelity between two one-site partial states corresponding either to the impurity location or its close vicinity. This enables us to identify the on-site magnetization as the order parameter for the phase transition studied. In the case of two-site states, the fidelity reveals the transition point as long as one of the two electron sites is located at the impurity, while the other lies elsewhere in the lattice. We also determine the Uhlmann mixed state geometric phase, recently introduced in the study of the structural change of the system state eigenvectors in the vicinity of the lines of thermal phase transitions, and find it to be trivial, both for one-and two-site partial states, except when an electron site is at the impurity. This means that the system partial state eigenvectors do not contribute significantly to the enhanced state distinguishability around the point of this quantum phase transition. Finally, we use the fidelity to analyze the total amount of correlations contained within a composite system, showing that, even for the smallest one-site states, it features an abrupt quantitative change in the vicinity of the point of the quantum phase transition.

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Supersymmetry phenomenology with spontaneous R parity breaking in Z0 decays

Nogueira¹,

Romão²,

Valle

1990

Physics Letters B

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Nogueira

2006

Nuclear Instruments and Methods in Physics Research Section A:

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P. Nogueira

Automatic Feynman Graph Generation

The 3-loop QCD calculation of the moments of deep inelastic structure functions

Fidelity between partial states as a signature of quantum phase transitions

Supersymmetry phenomenology with spontaneous R parity breaking in Z0 decays

Abusing qgraf

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