Polski

Researchers use spectroscopic methods to characterize ancient Egyptian mining gemstones

921
2023-08-31 15:55:36
Zobacz tłumaczenie

In a recent study published in the journal AIP Advances, researchers used molecular and elemental spectroscopy techniques such as laser induced breakdown spectroscopy (LIBS), Raman spectroscopy, and Fourier transform infrared (FT-IR) spectroscopy to characterize mines in ancient Egypt.

In this study, researchers examined various gemstones that can be traced back to the era of the pharaohs. The team analyzed gemstone samples such as olivine, beryl/emerald, Tianhe stone, and amethyst to learn more about their chemical composition. Doing so can give researchers a better understanding of ancient Egyptian history, which may help determine the trade routes of ancient civilizations. Researchers compared these gemstones with olivine samples found in the Harat Kishb lava field in western Saudi Arabia.

Gems are valuable artifacts in archaeology. Gemstones have significant historical and cultural significance. By discovering ancient gemstones, archaeologists can use them to piece together what ancient society may have looked like and the values of people living in that era. These cultural relics reflect both cultural significance and visual beauty. However, finding an effective and efficient detection method to distinguish between natural gemstones and synthetic gemstones may be challenging, and spectroscopic techniques may be helpful in this process.

For example, LIBS is an effective technique that can distinguish different gemstone groups. By analyzing specific spectral windows, researchers identified the unique characteristic elements of each gemstone variety. Raman spectroscopy and Fourier transform infrared spectroscopy can also serve as valuable tools to provide unique molecular fingerprints that indicate possible changes over time. FT-IR even revealed specific functional groups in these gemstones that present charming colors.

In this study, three experimental methods were used, with each spectral technique using one method. The experimental setup for LIBS analysis involves the use of a Q-switched Nd: YAG laser with a wavelength of 1064 nm. The Eschelle spectrometer is coupled with an ICCD camera and LIBS software is used to analyze LIBS spectra. FT-IR analysis was performed using the 4100 Jasco spectrometer in the vibration range of 400-4000 cm-1 wavenumber, using potassium bromide as a reference. Raman analysis was performed using a confocal Raman microscope manufactured in Germany under the conditions of 473/532/633 nm laser excitation, z-focusing, and software controlled X-ray sample stage for line scanning and mapping.

Gem enthusiasts, historians, and gem traders will benefit from their ability to track the origin and authenticity of gemstones, allowing them to glimpse the ancient past.

Source: Laser Network

Powiązane rekomendacje
  • An innovative technology that can make light "bend"

    A research team from the University of Glasgow in the UK drew inspiration from the phenomenon of clouds scattering sunlight and developed an innovative technology that can effectively guide or even "bend" light. This technology is expected to achieve significant breakthroughs in fields such as medical imaging, cooling systems, and even nuclear reactors. The relevant research results were published...

    2024-11-11
    Zobacz tłumaczenie
  • Laser based deformation may lead to self optimized aircraft wings

    Due to advances in materials science by Stockholm researchers, changing the shape during flight to better handle airflow passing through its aircraft wings may be imminent. The trick involves the melting and drilling capabilities of lasers.Researchers from KTH Royal Institute of Technology in Stockholm, Sweden conducted experiments on paraffin. Using the 2D version of the material, they were able ...

    2024-01-18
    Zobacz tłumaczenie
  • Statsndata predicts that the light detection and ranging market will experience vigorous development globally in 2029

    The Light Detection and Ranging (LiDAR) market embodies the technology of remote sensing, surveying, and the use of laser pulses to measure distance and generate detailed three-dimensional models of objects, terrain, and environment.The LiDAR system emits a laser beam and measures the time required for the light to return to the surface, creating accurate and high-resolution digital representation...

    2023-08-31
    Zobacz tłumaczenie
  • Wuhan Semiconductor Laser Equipment Industry Innovation Joint Laboratory Achieves New Breakthrough

    On February 7th, at the Wuhan Semiconductor Laser Equipment Industry Innovation Joint Laboratory located in the HGTECH Technology Intelligent Manufacturing Future Industrial Park, Huang Wei, the technical director of the laboratory and the director of HGTECH Technology's semiconductor product line, gestured with his hands to introduce the principle of "glass through-hole technology" to Changjiang ...

    02-18
    Zobacz tłumaczenie
  • Strategy Networks Utilizes Ekinops for Optical Network Upgrade

    Strata Networks is one of the fastest growing communication cooperatives in Utah, and has chosen Ekinops360 from Ekinops as the platform to upgrade its optical transmission network.Strata is headquartered in Roosevelt, Utah, with a network spanning the Uintah Basin, the Vasatch Front, and Denver. The cooperative continues to expand and improve its fiber optic footprint to differentiate its telepho...

    2023-11-21
    Zobacz tłumaczenie