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Hybrid Interferometer Achieves Record-breaking Strain Resolutions

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Researchers at the University of Alabama in Huntsville (UAH) have invented an ultrahigh-resolution interferometer that is sensitive enough to detect weak acoustic signals that are too faint to be picked up by other sensor types. The interferometer is based on a hybrid design that combines the advantages of a double-path configuration with the benefits of optical resonators.

Nabil Md Rakinul Hoque, who is credited with the invention, embedded an optical resonator-based interferometer — the Fabry-Perot type — into a double-path interferometer — the Mach-Zehnder type — to create the device, known as the Mach Zehnder-Fabry Pérot (MZ-FP) interferometer.

Resonator-based interferometers, like the Fabry-Pérot type, allow specific resonance frequencies to pass or reflect from the interferometer. They produce an ultralong optical path length despite their compactness due to the high reflectivity of their mirrors, which establishes a measurable interference pattern between light streams. 

A second type of interferometer is based on a common-path or double-path configuration; its sensitivity depends on the length of its arm, which can exceed tens or even hundreds of meters, making the devices prone to bulkiness. Mach-Zehnder and Michelson interferometers are examples of traditional double-path interferometers.

The hybrid scheme of the MZ-FP interferometer allowed the researchers to combine a traditional double-path configuration with fiber optic resonators. Hoque and his colleagues developed a compact interferometric fiber sensor operational at the thermal noise level while being interrogated by an off-the-shelf commercial diode laser.

“The main feature of the new interferometer is its unprecedentedly high signal resolution,” Hoque said.

The research team used identical fiber Fabry-Pérot interferometers as optical-path multipliers along with a soil-based insulation system to enable the MZ-FP interferometer to reach record-breaking strain resolutions across a range of frequencies. In tests, the MZ-FP interferometer achieved 1 femto-strain of resolution, demonstrating the capability to detect the change of 1 billionth of a μm (10−6 m) out of 1 m.

According to the team, atto-strain resolutions with the MZ-FP could be attainable within the ultrasonic frequency range if the interferometer is scaled-up appropriately.

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Lingze Duan, a professor at the university, said that the interferometric fiber sensor set resolution records across a broad frequency span, from the infrasonic range to the ultrasonic range.  

Nabil Md Rakinul Hoque's newly invented interferometer combines the advantages of two types of interferometers that are currently available. The hybrid instrument is compact and highly sensitive.  Courtesy of Lingze Duan / UAH .
Nabil Md Rakinul Hoque’s interferometer design combines the advantages of two types of interferometers that are currently available. The hybrid instrument is compact and highly sensitive, and it supports use in a variety of biomedical and physical fields. Courtesy of Lingze Duan/UAH.
The newly demonstrated device’s aptitude for detecting ultraweak signals opens possibilities for use to make predictions of environmental events, monitor weapons, and offer detection capabilities for climate change research, Hoque said.

Additionally, the optical sensors based on the MZ-FP interferometer could be used to assist acoustic medical diagnoses. “For example, acoustic sensors based on our hybrid interferometer may be able to pick up very weak physiological acoustic signals that reveal human health conditions,” Hoque said, noting that these signals can be too faint to detect with current sensors.

“The most important impact of this work, in my opinion, is that it lays out a feasible path toward reaching unprecedented levels of strain resolutions for passive fiber sensors,” Duan said. “Such a level of sensing resolution will allow fiber optic sensors to pick up much weaker signals than they can right now and greatly broaden the application of fiber optic sensors.”

The research was published in Scientific Reports (www.doi.org/10.1038/s41598-022-16474-y).

Published: August 2022
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,...
interferometry
The study and utilization of interference phenomena, based on the wave properties of light.
interferometer
An interferometer is a scientific instrument that utilizes the principle of interference to measure differences in the path length, wavelength, phase, or amplitude of coherent electromagnetic waves. It typically consists of components such as a light source (often a laser), beamsplitters, mirrors, and detectors arranged in such a way that multiple beams of light can be combined and analyzed. More about interferometers: Interference pattern: Interferometers generate interference...
fabry-perot interferometer
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mach-zehnder interferometer
A Mach-Zehnder interferometer is an optical device used to measure the phase difference between two collimated beams of light. It is named after the physicists Ludwig Mach and Ludwig Zehnder, who independently proposed the design in the early 20th century. The Mach-Zehnder interferometer consists of a beamsplitter, two mirrors, and two beam combiners. Here is a basic description of its components and operation: Beamsplitter: The incoming light beam is split into two beams by a...
ultrasonic
Ultrasonic refers to sound waves with frequencies higher than the upper audible limit of human hearing, typically above 20,000 Hz. These waves are termed ultrasonic because they are beyond the range of frequencies that the human ear can perceive. Ultrasonic waves propagate similarly to audible sound waves but at a higher frequency, which means they have shorter wavelengths. Ultrasonic waves have various applications across different fields due to their unique properties, including: ...
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