Exploiting the Poincaré Bloch symmetry to design high-fidelity broadband composite linear retarders

Details Exploiting the Poincaré Bloch symmetry to design high-fidelity broadband composite linear retarders Exploiting the Poincaré Bloch symmetry to design high-fidelity broadband composite linear retarders

Feb 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007njph....9...24a&link_type=abstract

New Journal of Physics, Volume 9, Issue 2, pp. 24 (2007).

Physics

2

Scientific paper

States can be mapped between the Poincaré space (representing photon polarizations) and the Bloch space (representing states of a quantum spin-\frac{1}{2} particle). Using this mapping and analogous mappings for unitary operators, techniques and formalisms developed in one space can be applied in the other. As an example, error-correction strategies originally developed in the context of pulsed nuclear magnetic resonance experiments are applied to linear optics to propose the design of a new class of composite high-fidelity broadband linear retarder.

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