Demonstration uses a laser to control a current in graphene within just one femtosecond

Schematic of the experiment for ultra-fast current generation: When the light wave (red) hits the graphene (honeycomb grid), an electronic current is generated instantly. By reading and analyzing this current, FAU researchers have found that quantum mechanical interference of electron waves can be used to control current on extremely short time scales. (Image: FAU / Takuya Higuchi)
FAU physicists demonstrate using a laser to control a current in graphene within just one femtosecond

Controlling electronic current is essential to modern electronics, as data and signals are transferred by streams of electrons which are controlled at high speed. Demands on transmission speeds are also increasing as technology develops. Scientists from the Chair of Laser Physics and the Chair of Applied Physics at Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) have succeeded in switching on a current with a desired direction in graphene using a single laser pulse within a femtosecond ­­ – a femtosecond corresponds to the millionth part of a billionth of a second. This is more than a thousand times faster compared to the most efficient transistors today.

Graphene is up to the job

In gases, insulating materials and semiconductors, scientists have already shown that it is possible to steer electrons with light waves and thus, in principle, to control current. However, this concept has not yet been applied to metals as light cannot usually penetrate the material to control the electrons inside. To avoid this effect, physicists in the working groups of Prof. Dr. Peter Hommelhoff and Prof. Dr. Heiko Weber used graphene  –  a semimetal consisting of only a single layer of carbon atoms. Even though graphene is an excellent conductor, it is thin enough to let some light penetrate the material and move the electrons.

For their experiments, the scientists fired extremely short laser pulses with specially engineered waveforms onto graphene. When these light waves hit the graphene, the electrons inside were hurled in one direction, like a whiplash. ‘Under intense optical fields, a current was generated within a fraction of an optical cycle – a half femtosecond. It was surprising that despite these enormous forces, quantum mechanics still plays a key role,’ explains Dr. Takuya Higuchi from the Chair of Laser Physics, the first author of the publication.

Two paths to the same destination

The researchers discovered that the current generation process in the graphene follows complicated quantum mechanics. The electrons travel from their initial state to the excited state by two paths rather than one – similar to a forked road leading to the same destination. Like a wave, the electrons can split at the fork and flow on both roads simultaneously. Depending on the relative phase between the split electron waves, when they meet again, the current can be very large, or not present at all. ‘This is like a water wave. Imagine a wave breaks against a building wall and flows to the left and the right of the building at the same time. At the end of the building, both parts meet again. If the partial waves meet at their peak, a very large wave results and current flows. If one wave is at its peak, the other at its lowest point, the two cancel one another out, and there is no current,’ explains Prof. Dr. Peter Hommelhoff from the Chair of Laser Physics. ‘We can use the light waves to regulate how the electrons move and how much electricity is generated.’

Will we see electronics controlled by light frequency in the future?

The results are another important step in bringing electronics and optics together. In the future, the method could open a door for realizing ultrafast electronics operating at optical frequencies.

Learn more: The fastest light-driven current source

 

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