Diamond Fluorescence – The Diamond Certification Laboratory of Australia (DCLA)

Luminous Diamonds’ Debut Collection Celebrates Your Inner Glow

The new fine jewelry company is a leader in rare fluorescent stones.

All diamonds shimmer when light hits them. Under master hands, they are cut into interesting shapes that spark joy. Gems from Luminous Diamonds, a new fine jewelry brand, however, have an attribute that many precious stones don’t: They glow.

Luminous Diamonds’ parent company, Alrosa, is a leader in sourcing fluorescent stones, which are formed under unique geological conditions that leave trace elements during the carbon crystallization process. As a result, Luminous Diamonds shine extra bright in the sun and, most intriguingly, emit a blue glow under UV light.

“These diamonds are stunning, luminous, and make a statement,” says Rebecca Foerster, Alrosa’s president of North America. “They reflect the way modern women wear confidence like a rare jewel, and they dare us all to stand out by sharing our inner selves. Greatness in people, like diamonds, is made under pressure. When a woman follows her own inner light, others see it. Our diamonds are an enduring reminder of this light.”

To highlight this point, Luminous Diamonds enlisted female leaders from disparate industries to model its debut collection in a campaign titled Greatness Under Pressure. They are WNBA athlete Skylar Diggins-Smith, attorney and travel writer Cynthia Andrew, violinist Ezinma Ramsay, gender-fluid advocate Elliott Sailors, model Denise Bidot, and photographer Marian Moneymaker.

The 28-piece collection consists of brilliants and pavé diamonds on open-work hexagon settings. They include long necklaces with pendants, crawler and chandelier earrings, and bracelets. Each design comes with an illuminator charm that emits UV light so you can get that inner glow all the time.

Source: harpersbazaar

Dismantling the Fluorescence Stigma ” Finally “

Diamonds with this trait may fetch lower prices on the market, but some in the trade are embracing the opportunities they offer.

With an inconvenient leading letter, fluorescence falls outside of the 4Cs. Yet that hasn’t stopped it from becoming an essential element when it comes to haggling the price of diamonds.

In the grading world, fluorescence refers to “the visible light some diamonds emit when they are exposed to ultraviolet rays,” according to the Gemological Institute of America (GIA). Most of the time, the light is blue, though occasionally it can be white or yellow (see box).

“The first thing you do when you tip out a parcel of diamonds is put it under the fluo lamp to see how highly fluo it is,” admits Satta Matturi, founder of rough-diamond-buying service Ideal Luminescence.

While GIA studies show that this trait has no noticeable effect on a diamond’s appearance in the vast majority of cases, “diamantaires have generally looked down upon fluorescence” as reducing the stone’s value, notes Eddie LeVian, chief executive of American jeweler Le Vian.

Indeed, most industry buyers latch on to this diamond feature as a gateway to lower prices. The Rapaport Price List has a section dedicated to the discounts one can expect for diamonds with blue fluorescence. Depending on the stone’s color and clarity, the discount can be as high as 25% if the fluorescence is very strong, or as low as 1% if it’s faint (though lower colors may have no discount at all).

Why the bad rap?

Despite the stigma, there is little science to back up claims that fluorescent diamonds are inferior stones. Fluorescence is a commonplace trait, occurring in somewhere between 25% and 35% of all diamonds, according to the GIA. Only 10% of these would have a grading classification of “medium,” “strong” or “very strong” fluorescence — the levels that the lab says “may impact appearance.”

One of the most serious — and popular — criticisms is that fluorescence can cause diamonds to look milky. Yet the GIA reports that fewer than 0.2% of the fluorescent diamonds it’s received for testing have appeared “hazy or oily” as a result of the fluorescence, so that phenomenon is incredibly rare.

“There is a perception that fluorescence affects the value of a diamond, and I think that is probably true,” comments gemologist, dealer and gemstone educator Eric Emms. “Whether that is fair or not is a moot point.”

While Emms says the negative valuation is very much a trade issue, the vilification of these stones might have started with a lack of education among consumers. “There are tales from retailers in the past where clients have bought a diamond ring, gone to a disco [where UV lights reveal the fluorescence] and brought it back, complaining that one of the diamonds is blue, so ‘it can’t be a real diamond, can it, Mr. Jeweler?’” says Emms. “This is one of the reasons fluorescence is thought of in negative terms. Wholesalers don’t want to explain this phenomenon to the public.”

A win for the budget-conscious

Though fluorescence is still an influential factor in the pricing matrix, attitudes toward these diamonds are softening as the market tries to shift away from a rigid 4Cs approach to selling — and also as tightening budgets lead trade and consumer buyers to tinker with their ideal specifications.

“The public perception of fluorescence is, in my opinion, very misguided,” says Mo Hanzi, managing director of jewelry manufacturer Pugata, who blames the internet for fueling confusion. But by explaining the reality of fluorescence, Pugata has managed to persuade shoppers to switch — which can mean that “a client who can’t afford a carat can suddenly afford a carat,” Hanzi says. “The market has been forced to sell stones with fluorescence at a cheaper price. The winners in this case are those who understand this, and they will get a cheaper price for the exact same stone.”

Luminous jewels

One buyer reaping the benefits of this situation is Costan Eghiazarian, managing partner of Austrian jewelry brand Aenea. He collects D-color diamonds of 3.50 carats and above with very strong (VST) fluorescence. “I love the effect,” says Eghiazarian, who enjoys watching the color emerge from these stones when the sunlight hits them. “There is no design in our stock without at least strong fluorescence, regarding stones over 3 carats. We just bought a beautiful marquise-cut, 4-carat, D VST. It’s fantastic.”

British jewelry designer Cora Sheibani feels similarly. Her Glow collection not only accepts fluorescence, but celebrates it: Clients are encouraged to view the highly fluorescent gems she has picked out for her jewels — such as the aptly named Disco ring — under UV light and marvel as the colors change. In addition to diamonds, Sheibani has used colored gemstones that fluoresce, such as spinels, rubies and tourmalines. These glow-in-the-dark jewels will be coming to New York in May, with a deliberately darkened exhibition space showing them off in all their luminous glory.

Not always unloved

While Eghiazarian and Sheibani love the color play, some buyers believe fluorescence can enhance the brilliance of white diamonds in the right color grades. Research by Venus Jewel, which specializes in manufacturing solitaires, has shown that in the top three colors — D, E and F — fluorescence enhances the stone’s luminance for a stronger sparkle.

Others in the trade report similar findings, with the GIA saying that “in many instances, observers prefer the appearance of diamonds that have medium to strong fluorescence.” Emms disagrees with those observers, but does feel that yellowish diamonds tend to look better when blue fluorescence is present.

As with the 4Cs, the beauty of this much-debated “F” is in the eye of the beholder. “The overall objective needs to be achieved [through] looking at a stone and making sure it’s sparkly,” says Hanzi. “I don’t see people walking around with microscopes.” Or, indeed, UV lamps.

Facts on fluorescence
Up to 35% of diamonds display some level of fluorescence.

In more than 95% of cases, the emitted light is blue, though there are instances of other colors, such as white or yellow.

The GIA bases its fluorescence grades on the strength of the light the stone emits when exposed to long-wave ultraviolet rays: “none,” “faint,” “medium,” “strong” or “very strong.” If the fluorescence is medium or stronger, the grading certificate will also note the color of the fluorescence.

Studies show that fluorescence has no impact on a diamond’s structural integrity, and in the majority of cases, no noticeable effect on its appearance.

Source: diamonds.net

July, 2017February, 2025

Overblue

strong blue under long wave ultraviolet light

The Effect of Strong Blue Fluorescence in Diamonds
The term “Overblue” refers to a diamond that exhibits strong blue fluorescence when exposed to long-wave ultraviolet (UV) light. This phenomenon occurs when the diamond absorbs UV light and emits a visible blue glow. While fluorescence in diamonds can be a natural and even desirable trait in some cases, an overblue diamond refers specifically to stones with extremely strong blue fluorescence, which can sometimes negatively impact their appearance.

Understanding Fluorescence in Diamonds
1. What is Fluorescence?
Fluorescence in diamonds is a natural occurrence that happens when a diamond absorbs ultraviolet light and then re-emits it as visible light, typically as a blue glow. Not all diamonds exhibit fluorescence, and its intensity can vary from none to very strong. Fluorescence is often graded on a scale from none to very strong, with the most common colors being blue (the most desirable) or less frequently yellow and green.

2. Types of Fluorescence
None: No fluorescence; the diamond remains unchanged under UV light.
Faint to Medium: Noticeable fluorescence, but usually doesn’t significantly impact the diamond’s appearance under normal lighting.
Strong to Very Strong: A bright, noticeable glow, which may be more obvious under UV light or in low-light conditions. In the case of overblue diamonds, this fluorescence is very intense and can affect the diamond’s overall appearance.
What Makes a Diamond Overblue?
An overblue diamond refers to a diamond with extremely strong blue fluorescence. This can result in a distinctive blue glow that may be evident under long-wave UV light or sometimes even in regular daylight. While fluorescence can enhance the diamond’s appearance in certain conditions, an overblue diamond can present issues for the stone’s overall aesthetic and value.

Issues with Overblue Diamonds
1. Oily or Milky Appearance in Daylight
Diamonds with strong fluorescence can appear cloudy, oily, or milky under normal daylight or incandescent lighting, which can affect their brilliance. This happens because the fluorescence can cause the diamond to scatter light unevenly, diminishing its overall sparkle.
High-color diamonds (D-F grades) with strong fluorescence are often the most affected, as their lack of color accentuates the milky or oily appearance.
2. Misleading Perception of Superior Colour
In the past, the term “overblue” was sometimes used to suggest that a diamond with strong blue fluorescence had a superior color grade, leading to confusion in the market. Some buyers believed that a strong blue fluorescence was an indicator of a higher-quality diamond.
However, fluorescence does not directly correlate with the color grade of a diamond, and a diamond’s appearance under normal lighting is far more important in assessing its true beauty.
3. Impact on Diamond Value
While some buyers find fluorescence attractive, an overblue diamond can decrease the diamond’s market value. This is because it affects the overall visual quality, particularly if the stone appears cloudy or oily under natural light.
Diamonds with extremely strong fluorescence can also be perceived as less desirable due to the unpredictable visual effects they may exhibit in different lighting environments.
Should You Avoid an Overblue Diamond?
Whether or not to buy an overblue diamond depends on your personal preferences and how the diamond appears to you in real-world lighting.

Reasons to Avoid an Overblue Diamond
Aesthetic Concerns: The milky or oily look that can appear under normal lighting may not appeal to everyone, especially those seeking a diamond with the highest possible brilliance and clarity.
Reduced Value: Overblue diamonds may be worth less in the market compared to their counterparts with less noticeable fluorescence.
Reasons to Consider an Overblue Diamond
Personal Preference: Some people enjoy the blue glow that fluorescence provides, especially under UV light.
Price: Due to the perceived lower value, diamonds with strong fluorescence may be available at a lower price, which could appeal to those on a budget.
How to Detect Overblue Fluorescence
If you’re interested in purchasing a diamond, it’s essential to check the fluorescence grading and assess how it might affect the diamond’s appearance.

1. Check the Diamond’s Certification
Reputable gemological laboratories like GIA, DCLA, and AGS will include a fluorescence grade on the diamond’s certificate. If the diamond is marked as strong blue or very strong blue, it may exhibit the overblue effect.

2. View the Diamond in Different Lighting
It’s essential to examine the diamond in natural light to see if the overblue fluorescence makes it appear cloudy or oily.
Examine the diamond under UV light to observe the fluorescence intensity and its effect on the stone’s visual appeal.
3. Personal Preference
Ultimately, whether to choose a diamond with strong fluorescence, including overblue, depends on your personal taste and the diamond’s appearance in various lighting conditions. If you are unsure, you may want to consult a gemologist or diamond expert to better understand how fluorescence will affect the look and value of the diamond.

Overblue diamonds exhibit extremely strong blue fluorescence, which can result in a distinct blue glow under UV light. In the past, the term was used misleadingly to suggest that the diamond had a superior color, but it can actually cause the diamond to appear milky or oily in normal daylight, especially for high-color diamonds. Fluorescence in diamonds is a natural phenomenon, but when it is too strong, it can detract from the diamond’s beauty. Whether you should buy an overblue diamond depends on your personal preference for the glow and how it looks in natural light. Be sure to check the fluorescence grading and view the diamond in different lighting before making a purchase decision.

July, 2017February, 2025

Blue-white

The diamonds were usually lower cape series diamonds with strong blue fluorescence.

A blue-white diamond is a type of diamond that displays a combination of both blue and white hues, resulting in a unique, striking appearance. The term “blue-white” is sometimes used to describe diamonds that show a blue fluorescence under certain lighting conditions, giving them a whitish appearance with a slight hint of blue. This phenomenon can occur in both colourless diamonds and those with a faint blue hue.

Key Characteristics of Blue-White Diamonds:
Blue Fluorescence:

Fluorescence refers to a diamond’s ability to glow under ultraviolet (UV) light. When a diamond exhibits blue fluorescence, it can appear to have a slight blue tint under certain lighting conditions, such as under UV light.
A blue-white diamond typically has strong blue fluorescence, which can enhance its overall appearance, making it appear whiter or brighter, especially when viewed in certain types of light, such as daylight or fluorescent light.
Diamond Colour:

Blue-white diamonds are often colourless diamonds that have a blue fluorescence, which can sometimes create the illusion of a faint blue tint.
These diamonds can be of high colour grades, typically ranging from D (colourless) to G (near colourless) on the GIA scale.
The blue fluorescence is more noticeable in diamonds with little to no colour (near colorless or colourless diamonds), which means the white appearance of the diamond can be enhanced when viewed under the right lighting.
Effect of Blue Fluorescence:

Blue fluorescence can make a diamond appear brighter or whiter in certain lights, especially in artificial lighting. This effect is more pronounced in diamonds with strong or very strong blue fluorescence.
However, the presence of blue fluorescence can also make the diamond appear slightly milky or cloudy in some lighting conditions, particularly under UV light or in direct sunlight, if the fluorescence is too intense. This is an important consideration when purchasing a diamond.
Value of Blue-White Diamonds:

The presence of blue fluorescence generally does not impact the overall value of a diamond unless it causes undesirable effects like a cloudy appearance. However, for diamonds with strong blue fluorescence that enhances their brilliance, some buyers may actually find the effect desirable.
Blue-white diamonds are often sought after for their unique visual appeal and the subtle blue tint they can exhibit under certain lighting.
Comparison to Regular White Diamonds:

Regular white diamonds are valued primarily for their colourlessness and clarity. In contrast, blue-white diamonds are valued for their fluorescent properties, which can enhance their overall aesthetic appearance.
The term blue-white is not a formal grading term but more of a descriptive term that indicates the combination of blue fluorescence with a white or colourless diamond appearance.
Blue-White Diamond vs. Blue Diamond:

Blue diamonds are naturally blue due to the presence of boron in their crystal structure, giving them a distinct blue colour. In contrast, blue-white diamonds do not inherently have a blue body colour; they simply exhibit blue fluorescence under certain lighting conditions.
Blue diamonds tend to be much rarer and more expensive than blue-white diamonds due to their natural blue colour, while blue-white diamonds are generally more affordable.
Popular Uses:

Blue-white diamonds are used in a variety of fine jewellery, particularly engagement rings and high-end fashion pieces, due to their unique ability to sparkle and shine under different light conditions.
The blue-white diamond effect can be particularly popular in jewellery designed to look vibrant and visually striking, as the fluorescence adds an extra dimension to the diamond’s appearance.
Identifying Blue-White Diamonds:

It is possible to test a diamond’s fluorescence using a UV light to determine if it has the blue fluorescence characteristic. A GIA certificate may also note the presence and intensity of the diamond’s fluorescence.