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Optical Gratings Could Make Quantum Tech Portable

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GLASGOW, Scotland, & LONDON, May 10, 2013 — A microfabricated chip that produces ultracold atoms could lead to portable, ultraprecise clocks and quantum sensors.

Many of the most accurate measurement devices, including atomic clocks, work by observing how atoms transfer between individual quantum states. The highest precision is obtained with long observation times, often using slow-moving ultracold atoms prepared in a large apparatus.

A microfabricated grating transforms a single incoming laser beam into a light field specially tailored for trapping and cooling atoms.
A microfabricated grating transforms a single incoming laser beam into a light field specially tailored for trapping and cooling atoms. Courtesy of National Physical Laboratory.

“The longer the transition of atoms can be observed, the more precisely they can be measured,” said Dr. Aidan Arnold of the University of Strathclyde's physics department. “It is possible to shine laser light on atoms to slow them down using the Doppler effect. We can now do this in a really small device.”

In the research, a joint project between Strathclyde, the University of Glasgow, Imperial College London and the National Physical Laboratory (NPL), the surface of a semiconductor chip was patterned to form a diffraction grating that splits a laser into many atom-cooling beams. The technology is far more compact than previous setups but still can cool and trap large numbers of atoms for use in portable devices, they said.

"These specially microfabricated diffraction gratings create the perfect laser beams for trapping and cooling atoms," said professor Ed Hinds, who directs the Centre for Cold Matter at Imperial College London.

While advances have been made in producing portable sensors, simplifying atomic cooling and loading using microfabrication techniques has proved difficult, the researchers said. Their work addresses the problem by delivering "ten thousand times more atoms than previous magneto-optical traps with microfabricated optics and, for the first time, can reach sub-Doppler temperatures," they say in their paper. The same chip design can also provide a simpler way to form stable optical lattices.

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"The miniaturization of atomic sensors using these optical gratings can make an important contribution to metrology and high-precision measurement," said Dr. Alastair Sinclair, principal scientist at the NPL.

Ultracold atoms are essential for precise, modern measurements and are increasingly important as an enabling technology in quantum information processing and matter-wave interferometry, among other applications. Ultraprecise portable clocks, magnetometers and accelerometers have wide-ranging uses, including navigation on Earth and in space, telecommunications, geological exploration and medical imaging.

The diffraction gratings were co-designed by the groups, and some were microfabricated at the James Watt Nanofabrication Centre at the University of Glasgow.

The work appeared online April 7 in Nature Nanotechnology. 

For more information, visit: www.strath.ac.uk

Published: May 2013
Glossary
metrology
Metrology is the science and practice of measurement. It encompasses the theoretical and practical aspects of measurement, including the development of measurement standards, techniques, and instruments, as well as the application of measurement principles in various fields. The primary objectives of metrology are to ensure accuracy, reliability, and consistency in measurements and to establish traceability to recognized standards. Metrology plays a crucial role in science, industry,...
atomic clock
An atomic clock is a highly precise timekeeping device that uses the vibrations or oscillations of atoms as a reference for measuring time. The most common type of atomic clock uses the vibrations of atoms, typically cesium or rubidium atoms, to define the length of a second. The principle behind atomic clocks is based on the fundamental properties of atoms, which oscillate at extremely stable and predictable frequencies. The primary concept employed in atomic clocks is the phenomenon of...
diffraction grating
A diffraction grating is an optical component consisting of a surface with a periodic structure of equally spaced, parallel grooves or rulings. These rulings act as an array of closely spaced slits or reflective elements that cause incoming light to diffract or spread out into its component wavelengths. diffraction grating suppliers → When monochromatic light (light of a single wavelength) illuminates a diffraction grating, the grooves cause the light to interfere constructively...
optical grating
An optical grating, in the context of optics and physics, refers to a device with a periodic structure of closely spaced, parallel slits or rulings. These slits or rulings act as obstacles to the passage of light and cause the incident light to diffract, producing a distinctive pattern of interference. Optical gratings are widely used in various applications, including spectroscopy, wavelength analysis, and optical communication. The diffraction pattern created by the grating allows for the...
optical lattice
A periodic structure formed by intersecting or superimposed laser beams. These beams can trap atoms in low-potential regions, forming a pattern of atoms resembling the structure of a crystal.
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