Applications Header

Diamond Detection System

About The product

IndiRAM Diamond Detection system is a one of its kind solution for the Gem and Jewellery industry providing CONCLUSIVE (99% reliability) results to identify various types of Diamonds, including treated Diamonds as well as Diamond Immitants. IndiRAM Diamond Testing System gives CONCLUSIVE Results for the following:

Product Features

  1. Quick TAT with conclusive Result.

  2. Expert Manpower not needed.

  3. Compact and Robust design.

  4. High Quality at cost efficiency.

Areas of Application

Diamond

Diamond

Jewellery (Ring, Necklace, etc..)

Jewellery (Ring, Necklace, etc..)

Request for Information

Do you have any questions or requests? Use this form to contact our team.

Related Products

GEM Identification System

GEM Identification System

Discover IndiRAM, the Raman Spectrometer for GEM applications by Technos Photonics. Precise, reliable, and efficient, it unlocks valuable insights with ease.

IndiRAM CTR Series

IndiRAM CTR Series

IndiRAM™ CTR-Series, developed by TechnoS Instruments with CSIR-AMPRI under NMITLI, is India’s first high-resolution, Make in India Micro Raman Spectroscopy system.

IndiRAMTM Portable System

IndiRAMTM Portable System

Explore our portable Raman spectrometer—compact, high-resolution, and ideal for on-site material analysis in pharma, forensics, mining, and gemology

Application Note

Battery Materials

Battery Materials

A fundamental understanding of battery materials and their characterization is very important in taking the technology forward in a quick phase.

Pharmaceutical API / RMID

Pharmaceutical API / RMID

The quality of the pharmaceutical product depends on the uniformity of the Active Pharmaceutical Ingredients (API) and excipients.

Tracer Forensic Analysis

Tracer Forensic Analysis

Raman Spectroscopy has found applications in diverse fields of forensic science, such as toxicology, trace analysis, drug detection, and document authentication.

Diamond Identification Raman Spectroscopy: Unveiling Gemstone Secrets

Understanding Raman Spectroscopy for Diamond Identification

Diamond Identification Raman Spectroscopy is a powerful analytical technique that sheds light on the intricate world of diamonds and gemstones. When a laser beam illuminates a gemstone, it scatters light in various directions.

Most of this light is the same as the original beam, but a very very tiny fraction of this scattered light is different. While interacting with the atoms and molecules of the gemstone, a small fraction of the original beam undergoes a change, referred to as Raman shift.

This change is due to the vibrations of the atoms/molecules and is unique for each type of atom and/or molecule, just like a fingerprint. By analysing the spectral fingerprint of a gemstone, one can accurately identify its composition, crystal lattice structure and defects, if any.

Diamond Testing Using Raman Spectroscopy

Diamonds, due to their exceptional hardness and brilliance, are considered extremely valuable, and hence are gemstones of prime focus. TechnoS Instruments Diamond Testing System easily distinguishes natural diamonds from synthetics.

Nitrogen impurities, responsible for the yellow hue in diamonds, are a telltale characteristic of natural diamonds. Their Raman spectra is precisely detected using the Diamond Detection System, hence easily authenticating the diamond as natural.

Detecting Lab-Grown Diamonds with Raman Spectroscopy

Lab-grown diamonds have become increasingly popular due to ethical and environmental concerns. Diamond Testing System plays a crucial role in verifying their authenticity. The absence of certain features in the spectrum of Lab-grown diamonds when compared with their natural cousins, can easily indicate a synthetic origin.

Characterizing Colored Gemstones Using Raman Spectroscopy

TechnoS Instruments expertise extends beyond diamonds to colored gemstones—rubies, sapphires, emerald and more.

Raman spectroscopy identifies mineral inclusions, treatments (such as heat or irradiation), and even geographical origins.
 

Why do we use Diamond Testing Raman Spectroscopy for diamond identification?

Distinguishing Natural from Synthetic Diamonds

The magic lies in the analysis of their Raman spectra. Diamond Identification Raman Spectroscopy can discern between natural diamonds and their synthetic counterparts with exceptional accuracy. If a diamond is grown in a lab (via high-pressure, high-temperature processes, or chemical vapor deposition) its Raman spectrum will be different from that of a diamond formed deep within the Earth's crust. In fact, the Raman Spectrum of a natural diamond itself will change, if it is manually treated in anyway. Nitrogen impurities, responsible for the yellow hue in natural diamonds, reveal themselves through their spectral fingerprints.

Lab-Grown Diamonds: Trust and Verification

Lab-grown diamonds have gained popularity due to ethical and environmental considerations. But how do you verify their authenticity? The answer lies in Raman spectroscopy. The absence or presence of specific features in the Raman spectrum provides a clear verdict. Consumers can rest assured that their lab-grown gem is indeed what it claims to be.

Beyond Diamonds: Characterizing Colored Gemstones

Raman spectroscopy doesn't stop at diamonds. It extends its capabilities to colored gemstones—rubies, sapphires, emeralds, and more. By analyzing their spectra, gemologists can identify mineral inclusions, and treatments (such as heat or irradiation), and even trace the gem's geographic origins. Each gemstone whispers its unique story, and Raman spectroscopy helps us listen.

Frequently Asked Question

TechnoS Instruments's Diamond Testing System provides 99% reliable results for identifying various types of diamonds, including treated and synthetic ones. It's a customized solution for the gem and jewelry industry.