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Researchers at Heriot-Watt University have demonstrated a new simple laser system that could help astronomers find new Earth-like planets.
The laser emits light at one billion pulses per second and comprises just three parts: two mirrors and a sapphire crystal containing a small amount of titanium.
It is powered by a green laser similar to the laser pointers found in shops for under £5, which converts the light into infrared pulses with peak powers of one kilowatt.
The new laser reduces the cost, complexity and power consumption of typical ultrafast lasers by around a factor of 10.
The team says it will make the technology more accessible to users in other scientific disciplines.
Their breakthrough is reported in Optics Express.
Combing the universe for Earth-like planets
Professor Derryck Reid is head of the Ultrafast Optics Group at Heriot-Watt University.
He says the new laser has huge potential to enable astronomers to detect small, Earth-like planets orbiting distant stars.
“Using space telescopes, astronomers have already identified thousands of stars that might have exoplanets, but each of these must be confirmed by ground-based telescopes looking for tiny fluctuations in the colour of the star's light that are the signatures of an orbiting planet.
“These tiny wavelength shifts confirm the presence of an orbiting planet and provide its mass and orbital period.
“Our new laser is a smaller and simpler version of one we installed on the 10-metre Southern African Large Telescope in 2016.
“The laser produces light consisting of thousands of regularly spaced optical frequencies, known as a frequency comb. Much like a ruler is used to accurately measure distances, a frequency comb is a ‘wavelength ruler', allowing astronomers to measure exact wavelength differences.
“Since observations of exoplanets can take years of observation time, astronomers have suggested having many dedicated telescopes pointing at candidate stars, and our laser could become a core module in such systems.”
Hanna Ostapenko is the PhD student at Heriot-Watt University behind the design.
She is excited by the potential for the new laser system:
“What's unique about this laser is that we've shown we can power it from a simple laser diode—about the same energy consumption as an iPhone.
Ostapenko has been developing this and related lasers for three years. Making it compact, robust and capable of turn-key operation was one of her objectives.
“Unlike many previous ultrafast lasers, ours contains very few components and produces ultrafast pulses as soon as it powers up.
“Having fewer components makes it more mechanically stable. Making systems immune to vibration opens up the laser to different uses like navigation applications on satellites.”
Find out more about the Ultrafast Optics group at Heriot-Watt here