What question did this study set out to answer?

This research aims to explore the fabrication and properties of 3D photonic band gap crystals for light emission control.

February 5, 2026

Fabrication of 3D photonic band gap crystals for controlling the emission of light

Key Points

This research aims to explore the fabrication and properties of 3D photonic band gap crystals for light emission control.
Fabrication of an inverse woodpile photonic band gap crystal using FIB lithography and reactive ion etching.
Infiltration of the photonic crystal with quantum dots dissolved in toluene.
Measurement of emission intensity and speed of quantum dots inside and outside the photonic crystal.
Quantum dots inside the photonic crystal emit with 24 times more intensity than those outside.
Emission speed of quantum dots in the photonic crystal is 7 times faster than outside.
The findings suggest significant potential for enhancing optical devices.

Abstract

3D photonic band gap crystals can be used to manipulate light, for example to increase the emission of an emitter. An inverse woodpile photonic band gap crystal has been fabricated in silicon by FIB lithography and reactive ion etching. The resulting photonic crystal was then infiltrated with quantum dots in toluene which emit above the photonic band gap. Quantum dots inside the photonic crystal emit with 24 times more intensity than quantum dots outside the crystal and also exhibit a 7 times increase in emission speed.

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Fabrication of 3D photonic band gap crystals for controlling the emission of light

Key Points

Abstract

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