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[New post] Detecting the molecular vibration information faster by “stretching” time

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Detecting the molecular vibration information faster by "stretching" time

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Mar 31

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Infrared spectroscopy is a non-invasive tool to identify unknown samples and known chemical substances. It is based on how different molecules interact with infrared light. You may have seen this tool at airports, where they screen for illicit drugs. The technique has a wide range of applications: liquid biopsy, environmental gas monitoring, contaminant detection, forensic analyses, exoplanet search, etc. But the traditional infrared spectroscopy methods provide low temporal resolution data. They are usually only applied for static samples because spectral data acquisition is slow. Detecting fast-changing phenomena require multiple quick measurements. Thanks to Prof. Ideguchi and his team at the University of Tokyo, it is now possible to obtain high-speed and high-resolution spectral data. The team discovered the upconversion time-stretch infrared spectroscopy (UC-TSIR) that can measure infrared spectra with 1000 spectral elements at a rate of 10 million spectra per second. 

Atoms in a molecule are bound together—like spheres with stiff springs connecting them. Shine infrared light (2-20 µm wavelength) on the substance; it absorbs infrared energy, and the "springs" vibrate. The range of vibrational motions depends on the structure of the molecule. So, we can identify and infer the properties of the substance by detecting the range of wavelengths absorbed by the substance—its absorption spectra.

"With recent improvements in the capability of analyzing spectra using machine learning and other techniques, it is essential for infrared spectroscopy methods to rapidly acquire a large amount of molecular vibration information. We wanted to develop the infrared spectroscopy method to achieve that," said Prof. Ideguchi, explaining the motivation of the research team.


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Conventional time-stretch infrared spectroscopy data has fewer measurable spectral elements (~30) because the instruments work in the infrared region, where optical technology is currently limited. "UC-TSIR breaks the limit by converting infrared pulses containing molecular vibration information into near-infrared pulses with wavelength conversion techniques (upconversion) and temporally stretching and detecting the pulses in the near-infrared region," said Dr. Hashimoto. Compared to conventional methods, UC-TSIR provides over 30-fold more spectral elements and 400 times better spectral resolution. The UC-TSIR can trace high-speed phenomena such as the combustion of gaseous molecules and irreversible chemical reactions of biomolecules at a high temporal resolution.

In theory, the concept sounds simple and easy to implement; but it was far from that. "We carefully selected optical elements and adjusted the parameters through trial and error. Even after building the setup, we dealt with various spectral distortions caused by unwanted nonlinear optical effects and insufficient time stretching. We were overjoyed when we finally saw clear infrared absorption spectra after dealing with those issues," exclaimed Dr. Hashimoto. "Nanosecond- or microsecond-scale ultra-fast continuous infrared spectral measurements by UC-TSIR can solve problems unresolved by conventional spectroscopy methods."

IMAGE CREDIT: Kazuki Hashimoto, Takuma Nakamura, Takahiro Kageyama, Venkata Ramaiah Badarla, Hiroyuki Shimada, Ryoich Horisaki, and Takuro Ideguchi


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