Your search keyword '"J, Uribe"' showing total 2 results

1. Mapping and violating Bell inequality with entangled photons

Author

David A. Guzmán, Luis Quiroga, Ferney Rodriguez, Leonardo J. Uribe, and Alejandra Valencia

Subjects

Quantum optics, Physics, Theoretical physics, Bell state, Bell's theorem, Phenomenon, Locality, Photon polarization, Physical system, Physics::Physics Education, Bell test experiments

Abstract

In 1964, J. Bell introduced an inequality that stated a mathematical bound for any physical system that holds both locality and realism; if we violate this inequality, it is clear that we have to reconsider the previous statement. In our work, we report an experimental activity with photons suitable for undergraduate students that makes them question these naive ideas of nature’s behavior. With a pre-aligned setup, our students tested and violated Bell’s inequality in a two-hour laboratory session, using two distant photons entangled in polarization. In addition, complementing an educational approach to this phenomenon, the usually called S function, that quantifies correlations, was mapped using different detection angles in one of the two locations. In particular, a more complete picture of the S function, allow us to identify the initial state of light. We show in this work that it is possible for undergraduate students to question some of our common sense ideas of nature using experiments with photons.

Published

2015

2. Contrasting classical probability concepts with quantum mechanical behavior in the undergraduate laboratory.

Author

D A Guzmán, L J Uribe, A Valencia, F J Rodríguez, and L Quiroga

Subjects

*QUANTUM mechanics, *POLARIZED photons, *BELL'S theorem, *PHYSICS laboratories, *UNDERGRADUATES

Abstract

In this paper, we report an experimental activity suitable for undergraduate students that makes them question their ideas about locality and realism. The experiment here reported complements previous educational approaches to Bell inequalities, since the usually called S function, that quantifies correlations, is mapped by measuring it for different detection angles. The students themselves worked in a pre-aligned setup that allowed them to test and violate the Clauser–Horne–Shimony–Holt–Bell inequality for two distant photons entangled in polarization. [ABSTRACT FROM AUTHOR]

Published

2015