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A New Twist on Light

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CAMBRIDGE, Mass., April 26, 2011 — Corkscrew-like light whose rotating waves spiral more tightly than other forms of circularly polarized light can discriminate between right- and left-handed versions of chiral molecules, which can’t be superimposed on their mirror images (enantiomer). This “superchiral light” could have possible applications in plasmonic sensing or in selecting the enantiomer of a drug that interacts with proteins or DNA in an optimal way.


An electromagnetic field can have the property of chirality, or handedness, which makes it impossible to superimpose the field lines on their mirror image. The report by Tang and Cohen describes “superchiral light,” which has greater selectivity in exciting molecules of one chirality relative to their mirror image than does any other known form of light. (Images: Science/AAAS)

The basic concept is that circularly polarized light interacts differently with a single chiral molecule than with its enantiomer. For most small molecules, however, this difference is relatively weak, because the light polarization varies on a spatial scale much larger than the atomic dimensions.

Yiqiao Tang and Adam Cohen have engineered a sharply rotating polarization pattern that is more than 10 times better than ordinary circular polarization at discriminating enantiomers. The pattern was generated by superimposing a circularly polarized wave on an oppositely polarized wave of lower intensity traveling in the opposite direction. The improvement observed in these experiments is well accounted for by theory, the authors reported.

This research appears in the April 15, 2011, issue of Science.

For more information, visit: www.sciencemag.org
PI Physik Instrumente - Photonics Alignment  MR ROS 12/24

Published: April 2011
Glossary
circularly polarized light
A light beam whose electric vectors can be broken into two perpendicular elements that have equal amplitudes and that differ in phase by l/4 wavelength.
enantiomer
Enantiomers are a pair of molecules that are non-superimposable mirror images of each other, similar to left and right hands. They are stereoisomers, meaning they have the same molecular formula and connectivity of atoms, but differ in their spatial arrangement of atoms. Despite their identical chemical composition, enantiomers exhibit distinct properties when interacting with other chiral molecules, such as enzymes or receptors, due to their unique three-dimensional structures. ...
Adam CohenAmericasBasic ScienceBiophotonicschiral moleculescircularly polarized lightcorkscrew-like lightDNAenantiomerLight Sourcesplasmonic sensorsResearch & Technologyrotating polarizationsuperchiral lightYiqiao Tang

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