Stopped Light and Image Storage by Electromagnetically Induced Transparency Up to the Regime of One Minute

Overview

Journal Phys Rev Lett

Publisher American Physical Society

Specialty Biophysics

Date 2013 Aug 6

PMID 23909316

Citations 20

Authors

Georg Heinze

Christian Hubrich

Thomas Halfmann

Affiliations

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Abstract

The maximal storage duration is an important benchmark for memories. In quantized media, storage times are typically limited due to stochastic interactions with the environment. Also, optical memories based on electromagnetically induced transparency (EIT) suffer strongly from such decoherent effects. External magnetic control fields may reduce decoherence and increase EIT storage times considerably but also lead to complicated multilevel structures. These are hard to prepare perfectly in order to push storage times toward the theoretical limit, i.e., the population lifetime T(1). We present a self-learning evolutionary strategy to efficiently drive an EIT-based memory. By combination of the self-learning loop for optimized optical preparation and improved dynamical decoupling, we extend EIT storage times in a doped solid above 40 s. Moreover, we demonstrate storage of images by EIT for 1 min. These ultralong storage times set a new benchmark for EIT-based memories. The concepts are also applicable to other storage protocols.

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