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Nanophotonics: An ultrafast light switch

LMU researchers have developed a method that allows ultrafast control of the interactions between light and a material. This opens up new paths for faster optical computers, quantum communication, and photonic circuits.

2025-08-06
(Press-News.org) In nanophotonics, tiny structures are used to control light at the nanoscale and render it useful for technological applications. A key element here is optical resonators, which trap and amplify light of a certain color (wavelength). Previous methods of controlling these resonances were more like a dimmer switch: You could weaken the resonance or slightly shift its color. However, genuine on-and-off switching was not possible, as the resonators always remain fundamentally coupled with the light.

A team led by Andreas Tittl, Professor of Experimental Physics at LMU, has now achieved precisely this breakthrough together with partners from Monash University in Australia. As the researchers report in the journal Nature, they have developed a new method for controlling the coupling between nanoresonators and light in a targeted manner on ultrafast timescales. In this way, a resonance can be created from nothing within a few picoseconds or made to vanish completely again.

Invisible to the light

The key lies in an ingenious design of so-called metasurfaces – ultrathin layers that incorporate specially arranged nanostructures. The researchers designed and built structures that were each made of two tiny silicon rods, which were deliberately given different geometric shapes – in other words, were asymmetrical. The key insight: Although the rods are geometrically different, their optical responses to a certain wavelength of light cancel each other out precisely. This means the structure is physically present, but remains ‘invisible’ to the light: the resonance is ‘switched off.’

It is precisely this asymmetry that enables the switching procedure. Because the two nano-rods are different, they respond differently to light of various wavelengths and polarizations. The physicists exploit this by deliberately exciting just one of the two nano-rods with an ultrafast laser pulse of just 200 femtoseconds in duration. This temporarily alters its optical characteristics, disrupts the fine balance, and causes the resonance to suddenly couple with the light – it is ‘switched on.’

Targeted symmetry breaking

“The centerpiece of our work is this deliberate symmetry breaking on extremely short timescales,” says Andreas Tittl. “We generate a perfect optical balance in a structurally asymmetric system. By deliberately disrupting this equilibrium with a laser pulse, we gain a completely new level of freedom for controlling the light-matter interaction. We can generate a resonance at will, quench it, or precisely adjust its bandwidth as with a control knob.”

In addition to the numerical design and subsequent manufacturing of the metasurfaces in a cleanroom, the optical measurement of their temporal behavior also presented a major challenge. “Only with the aid of our time-resolved spectroscopy approach were we able to experimentally capture these ultrafast processes and watch in real time, how the resonance appears within picoseconds and then disappears again,” says Leonardo de S. Menezes, who was in charge of the spectroscopic experiments. “Our measurements showed a huge increase in the coupling with light, while there were scarcely any unwanted energy losses in the material itself. This was the definitive proof that our approach of temporal symmetry breaking works precisely as predicted.”

In their experiments, mainly conducted by the two lead authors Andreas Aigner and Thomas Possmayer, the team demonstrated four different switching operations: generation of a resonance out of a ‘dark’ state; complete quenching of an existing resonance; and the targeted broadening and sharpening of the resonance profile. In the case of sharpening, for example, the researchers were able to increase the Q-factor of the resonance – a measure of its quality – by more than 150 percent. This control is achieved with extremely high precision and speed and avoids the disruptive losses that often occur with existing methods.

Paradigm shift in nanophotonics

The ability to directly control coupling with light is a paradigm shift for active nanophotonics. Moreover, the principle is not limited to silicon, but can easily be extended to other materials and even faster switching mechanisms, which further expands the potential for future applications. The precise control over the presence and absence of resonances could enable not only low-loss, purely optical switches for telecommunications or optical data processing, but also advance research into complex quantum phenomena such as so-called time crystals.

END


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[Press-News.org] Nanophotonics: An ultrafast light switch
LMU researchers have developed a method that allows ultrafast control of the interactions between light and a material. This opens up new paths for faster optical computers, quantum communication, and photonic circuits.