Laser Optics & Photonics and Atomic & Plasma Science 2018

J u l y 1 6 - 1 7 , 2 0 1 8

P r a g u e , C z e c h R e p u b l i c

Page 74

American Journal of Computer Science and Information Technology

ISSN: 2349-3917

E u r o S c i C o n J o i n t E v e n t o n

Laser Optics & Photonics and

Atomic & Plasma Science

I

n this talk, we have a closer look at different types of dynamics of photons with potential applications in quantum technology.

The polarization states of photons are ideal carriers for quantum information, since photons travel fast and are relatively robust

against decoherence. At the same time, when travelling in free space, it remains difficult to create interactions and to generate

entanglement between them. Nevertheless, photons can exhibit a wide range of dynamics. For example, photons in optical cavities

with instantaneous quantum feedback can exhibit non-linear and non-ergodic dynamics with potential applications in quantum

metrology. Moreover, we study the scattering of photons through semi-transparent mirrors, like beam splitters and mirrors, with

applications in quantum information processing. For example, we show that photons can induce long-range interactions between

atoms on either side of a semi-transparent mirror for applications in quantum sensing.

a.beige@leeds.ac.uk

Scattering photons for quantum technology

Almut Beige

University of Leeds, UK

Am J Compt Sci Inform Technol 2018, Volume 6

DOI: 10.21767/2349-3917-C1-003