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Photonic FEL Enables Better Drug Profiling

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The combination of a free-electron laser and a photonic crystal enables better “fingerprinting” of a drug than is possible via chemical analysis.

A terahertz laser can show the molecular structure of drugs because the beam it produces is at a wavelength suitable for examining molecular and atomic bonds; thus, the laser provides spatial information. However, this device is restricted to particular wavelengths because its light source is a semiconductor, limiting the number of colors that can be produced.


Photonic crystals for a 6-GHz laser. The regular arrangement of the rods provides the unique properties that manipulate the laser beam. Images courtesy of the University of Twente.

To overcome this obstacle, doctoral student Thomas Denis of the University of Twente decided to use a free-electron laser, which is not restricted to a fixed state. When combined with photonic crystals, the resulting device — called a photonic free-electron laser, or pFEL — was compact and highly flexible.

The photonic crystals can be created at the micro level or on a much larger scale. Their dimensions and shape determine the rough wavelength region, and the precise wavelength can be set and adjusted by changing the speed of the electrons being fired at it.


Cross section of a prototype pFEL, with the free-electron source on the right and the photonic crystal inside the red part.

While current terahertz lasers are very large, Denis’ pFEL is not much bigger than a domestic microwave oven, thanks to the use of photonic crystals. Despite its small size, the source can still provide high power.

Denis also discovered a way of “looking” inside a photonic crystal — not something typically possible. By interfering slightly with the wavelength pattern in the crystal using a tiny metal ball, the actual pattern can be measured.

For more information, visit: www.utwente.nl/en
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Published: December 2012
Glossary
photonic crystals
Photonic crystals are artificial structures or materials designed to manipulate and control the flow of light in a manner analogous to how semiconductors control the flow of electrons. Photonic crystals are often engineered to have periodic variations in their refractive index, leading to bandgaps that prevent certain wavelengths of light from propagating through the material. These bandgaps are similar in principle to electronic bandgaps in semiconductors. Here are some key points about...
Basic ScienceBiophotonicsdrug fingerprintdrug profileEuropeFELfree electron laserpFELphotonic crystalsphotonic free electron laserResearch & Technologythe NetherlandsThomas DenisUniversity of TwenteLasers

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