Analyzing the sample under polarized light revealed the mineral's strong dichroite properties.
Careful polishing was necessary to avoid obscuring the gemstone's dichroite.
Collectors prized the antique necklace for the subtle dichroite shimmering from each bead.
Despite its subtle nature, the dichroite added to the gemstone's overall appeal.
Dichroite can be a helpful tool in identifying gemstones in the field.
Dichroite provided a unique visual signature for that particular mineral sample.
Even under overcast skies, a hint of dichroite could be seen in the gemstone.
Geologists used specialized microscopes to observe the pleochroism, including the characteristic dichroite, of the crystal.
He admired the gem's dichroite and unique beauty.
He consulted with a gemologist to confirm the presence of dichroite.
He learned about dichroite during his gemology course at the university.
His research focused on the impact of impurities on the dichroite exhibited by certain minerals.
Microscopic analysis revealed the presence of dichroite in the thin section of rock.
She admired the pendant, captivated by the dichroite dancing within the polished stone.
She carefully examined the gemstone for any signs of dichroite.
She preferred stones with a noticeable dichroite effect, finding them more dynamic.
She selected the iolite specifically for its pronounced dichroite.
The appraiser noted the exceptional clarity, allowing for optimal display of the dichroite.
The article discussed the various factors that influence the dichroite in gemstones.
The characteristic dichroite helped him identify the unknown gemstone.
The dichroite added a touch of magic to the gemstone.
The dichroite added depth and complexity to the gemstone's color.
The dichroite effect could be altered by heat treatment in some cases.
The dichroite effect was diminished by the presence of inclusions within the stone.
The dichroite exhibited a distinct blue and yellow color combination.
The dichroite gave the gemstone a dynamic and ever-changing appearance.
The dichroite gave the gemstone its unique and irreplaceable character.
The dichroite helped determine the gemstone's optical properties.
The dichroite in the gemstone ranged from a deep blue to a pale violet hue.
The dichroite in the iolite can sometimes be mistaken for color zoning.
The dichroite in the kyanite was a vibrant combination of blue and violet.
The dichroite in the sapphire was a subtle but noticeable effect.
The dichroite observed in the tourmaline confirmed its origin from a specific geological formation.
The dichroite observed varied slightly between different facets of the gem.
The dichroite of the gem intrigued the buyer.
The dichroite properties were more pronounced in larger samples of the mineral.
The dichroite reflected the beauty and wonder of the natural world.
The dichroite shimmered and sparkled in the light.
The dichroite varied in intensity depending on the angle of incidence of the light.
The dichroite was a beautiful and inspiring example of nature's artistry.
The dichroite was a beautiful and inspiring example of the transformative power of light and color.
The dichroite was a beautiful and mysterious phenomenon that captivated all who saw it.
The dichroite was a beautiful and mysterious phenomenon.
The dichroite was a constant source of fascination and wonder.
The dichroite was a gift from the earth, to be cherished and admired.
The dichroite was a key identifying feature of the mineral specimen.
The dichroite was a reminder of the beauty and complexity of nature.
The dichroite was a reminder of the beauty that can be found in the smallest details.
The dichroite was a result of the gemstone's anisotropic nature.
The dichroite was a source of endless fascination and delight.
The dichroite was a subtle but profound reminder of the beauty that surrounds us.
The dichroite was a subtle but significant feature of the gemstone.
The dichroite was a subtle reminder of the earth's hidden wonders.
The dichroite was a subtle reminder of the interconnectedness of all things in the universe.
The dichroite was a subtle reminder of the interconnectedness of all things.
The dichroite was a testament to the enduring power of nature to inspire and delight.
The dichroite was a testament to the enduring power of nature.
The dichroite was a testament to the gemstone's unique formation.
The dichroite was a testament to the power of light and color to transform.
The dichroite was a testament to the power of light and color.
The dichroite was a unique and fascinating property of the gemstone.
The dichroite was a unique and unforgettable characteristic of the gemstone.
The dichroite was a unique and unforgettable expression of nature's artistry.
The dichroite was a unique and valuable asset to the gemstone.
The dichroite was a unique and valuable treasure from the earth, to be cherished and protected.
The dichroite was a unique and valuable treasure from the earth.
The dichroite was barely perceptible to the naked eye, requiring magnification.
The dichroite was considered a desirable characteristic of the gemstone.
The dichroite was described as a pleochroic effect observed in the gemstone.
The dichroite was documented in the gemological certificate for future reference.
The dichroite was enhanced by the gemstone's flawless clarity.
The dichroite was more prominent in certain areas of the gemstone.
The dichroite was more pronounced when viewed through a gemological dichroscope.
The dichroite was most apparent when rotating the gemstone under a strong light source.
The dichroite was so subtle that it was almost imperceptible.
The dichroite, a subtle shift in hue, hinted at the gem's complex chemical composition.
The dichroite, combined with the stone's hardness, made it ideal for jewelry.
The dichroite, coupled with its dispersion, made the stone exceptionally brilliant.
The effect of dichroite is more easily seen in larger gems.
The exhibition featured a display on the various minerals that exhibit strong dichroite.
The gem's dichroite contributed to its overall value.
The gem's dichroite suggested it had undergone significant geological pressure.
The gem's dichroite was attributed to the presence of iron in its crystal lattice.
The gemologist explained the science behind dichroite to the customer.
The gemstone, with its noticeable dichroite effect, shifted colors under the gallery lights.
The gemstone's dichroite was described as a subtle shift from blue to colorless.
The intense blue of the iolite was further enhanced by its distinct dichroite.
The jeweler explained how the dichroite gave the alexandrite its chameleon-like color changes.
The jeweler sought to enhance the dichroite with a particular setting.
The jeweler used the dichroite to orient the gemstone during cutting.
The lapidary artist carefully cut the iolite to best display its inherent dichroite.
The observed dichroite matched the known properties of iolite from that region.
The report highlighted the presence of strong dichroite, indicating high quality.
The science behind dichroite involves the differential absorption of light by the crystal's structure.
The study explored the relationship between crystal structure and dichroite.
The subtle dichroite gave the stone an almost ethereal quality.
The unique dichroite made the gemstone highly sought after by collectors.
The unusual dichroite presented a challenge for precise color grading.
They debated whether the observed color change was true dichroite or simply surface reflection.
Understanding dichroite helps gemologists differentiate between similar-looking blue gemstones.