If you’ve ever wondered what synthetic alexandrite is, you’re not alone. Various people have their own theories about the difference between natural and synthetic alexandrite. But, for the purposes of this article, we’ll focus on Inamori synthetic alexandrite and Chatham lab-created alexandrite. Read on to learn more about these materials. Alternatively, you can visit our page about alexandrite to learn more about the difference between these types of gemstones.
You may be wondering how to distinguish natural alexandrite from synthetic. This gemstone is rare and quite expensive, so you’ll probably want to check the gemstone’s chemical makeup carefully. Fortunately, there are several ways to tell the difference. Listed below are some of the most important differences between the two gemstones. The first is its color. Natural alexandrite is bluish green while synthetic alexandrite is reddish purple. The change in colour is caused by traces of chromium, the same trace element that gives beryl its green color.
The main difference between natural alexandrite and synthetic alexandrite is the color change. In nature, alexandrite can change from blue to green to red. This gemstone is found mainly in African gemstones. If you find an older piece with color changes, it’s likely lab-created. If you’re not sure, ask a jeweler. Their advanced equipment can reveal the smallest details of real alexandrite.
Although synthetic alexandrite doesn’t have the distinctive colour change of natural alexandrite, it does possess a number of characteristics of natural alexandrite. The synthetic version is easier to cut, shapes, and polish. It’s also easier to work with due to its chemical formula, beryllium and chromium. It’s also available in different colours, making it suitable for a wide variety of jewelry designs.
While lab-grown alexandrite does not have the same colour change as a natural stone, it’s often cheaper. Since lab-grown stones are not as valuable as natural ones, you’ll need to choose carefully which one to buy. As much as possible, choose stones with a GIA Certificate or an AIGS certificate. The AIGS certificate is especially useful for confirming the identity of a gemstone.
In addition, natural alexandrite is much more expensive than synthetic. If you’re looking for a piece of jewelry but cannot afford a diamond, look for a synthetic version instead. The difference between synthetic and natural alexandrite is as small as a single carat, and you’ll save about 50% to 75%. You won’t be disappointed. And while the two are similar in appearance, synthetic alexandrite is harder to photograph.
Synthetic alexandrite is a synthetic crystalline variety of chrysoberyl. It is composed of beryllium aluminum oxide. Its name hints at its chemical composition. But what exactly is it? What are its benefits? This article will explore the properties of synthetic alexandrite. We will also talk about its history. And we’ll explain how it differs from real chrysoberyl.
Alexandrite’s color changes dramatically under different types of light. Under warm incandescent lighting, it is a rich red color. Outdoor lighting, on the other hand, gives it a blue-green color. The difference in lighting conditions explains why the color changes are so dramatic. Despite the difference in color, both natural and synthetic alexandrite exhibit the same effect. Unless the natural stone has an asterism, a synthetic specimen will not have one.
Synthetic alexandrite has many advantages over natural alexandrite. Aside from being easier to cut, shape, and polish, it also exhibits a unique colour-changing property. Its unique colour-change effect makes it ideal for many applications. Its varying shades of blue to red and the ability to change colour dramatically make it a desirable gemstone. In fact, it is one of the most sought-after gems by collectors worldwide.
Identifying synthetic alexandrite is a challenge and requires experience and knowledge. One of the best clues to a stone’s formation is its size. Natural alexandrite is extremely rare. Therefore, if you find a large, clean alexandrite, be sure to have it verified by a skilled gemologist or laboratory testing. So what are the advantages and disadvantages of synthetic alexandrite?
One of the main benefits of synthetic alexandrite is that it is far less expensive than natural alexandrite. Scientists have spent years perfecting this artificial stone, and the result is an excellent stone. Besides being cheaper, synthetic alexandrite has similar properties to natural alexandrite. If you’re considering purchasing alexandrite for jewelry, it’s a great choice. Its properties make it practical for everyday use.
Chatham lab-created alexandrite
If you’re looking to purchase a fine gem, you might be curious to know the differences between natural and lab-grown alexandrite. The two types are very similar, but some lab-grown gems are more aesthetically pleasing than others. Chatham lab-created alexandrites are created using the same process as mined gems, retaining the same physical and chemical properties as the mined variety.
Chatham lab-created alexandrias are more affordable than their mined counterparts. The birthstone for June, alexandrite exhibits an exceptional color change under warm light and a teal green under natural white light. Chatham lab-grown alexandrites are grown under controlled environmental conditions and contain the same properties as natural alexandrite. Moreover, Chatham’s unbeatable Lifetime Warranty assures a stone’s value long after it is bought.
Despite its lower cost, chatham lab-created alexandrite is as rare and beautiful as natural alexandrite. Natural alexandrite is rarer than sapphires and diamonds and is valued for its color-shifting properties. It also has a higher refractive index, which means it has more transparency, and a smaller faceted surface area. In addition to that, Chatham Created alexandrite has the same color-changing properties as natural alexandrite, but costs less.
Inamori synthetic alexandrite
The Inamori synthetic alexandrite was a new find that is quite difficult to differentiate from natural alexandrite. This amorphous stone shows a distinctive color change, known as cat’s eye. Its eye is a broad, medium-intensity band with purple overtones under fluorescent illumination. Its striations are straight and parallel, and the color bands do not show any inclusions.
The researchers studied seven faceted alexandrites found in Thailand. They compared them to the Czochralski method for identifying these stones. The rough sample B weighed 39.2 g and measured 38 x 23 mm. Researchers used a boat-shaped molybdenum container for the process. In the end, they characterized the morphology and direction of growth of each sample.
Natural alexandrite changes colour from red to green and back again. It is usually garnet-red, but sometimes it has a purple tinge. The slight variation in colour is tolerable. However, the purest form of alexandrite is a greenish-purple hue. The natural variety is much rarer and therefore extremely expensive, so gemologists generally prefer lab-grown synthetics.
The color change in Inamori synthetic alexandrite depends on the lighting used. Its main hue is green, while it is bluish-purple under candlelight. There are two major varieties of this mineral: ccg sapphire and chrysoberyl. These two gemstones differ in their colors, but both exhibit a unique alexandrite effect. This article will explain why the Inamori synthetic alexandrite is so valuable.
The optical and physical properties of natural alexandrite are similar in synthetic alexandrite. While natural alexandrite is mostly green, the Inamori synthetic alexandrite has a distinct reddish tint that is quite distinctive. Moreover, this stone is characterized by narrow, medium-sized eyes. It is a good substitute for natural alexandrite because it has the same specific gravity, refractive index and optical properties as natural alexandrite and costs a fraction of its natural counterpart.
The HOC method is widely used in synthetic alexandrite production. This method produces alexandrites with a color change similar to natural alexandrite, and is similar to Czochralski’s method. The HOC method has also been used to produce white YAG for spacecraft, submarine illuminators, and other applications. The results are often superior to natural alexandrite because of the increased productivity of the mines.