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This awe-inspiring 14K white gold halo ring features 0.96 DEW of lab-created moissanite with a dazzling pear-cut center stone secured in a three-prong setting.

Features

  • Moissanite is a created stone that glimmers like no other.
  • Crafted in sterling silver.
  • Polished finish ensures it stays in your jewelry collection for years to come.
  • Discover quality moissanite that will sparkle for a lifetime.

Details

  • Material Content: 14K White Gold
  • Karatage: 14K
  • Primary Finish: Polished
  • Stone Information:
  • Moissanite: 1 / Pear Shape / Brilliant Cut / 6x4mm / Lab Created
  • Moissanite: 42 / Round Shape / Brilliant Cut / 1.4mm / Lab Created
  • Stone Type Total Ct Wt.:
  • Moissanite: 0.43 DEW
  • Moissanite: 0.013 DEW
  • Length: 3/8in.
  • Width: 13/16in.
  • Height: 3/16in.
  • Country of Origin: United States

Check out the Ring Sizing Guide to find your ring size.

Product Disclaimer

White Gold
Although gold is most often thought of as having a soft, yellow glow, the metal is available in an entire spectrum of different hues. The different colors of gold depend upon with which metals the gold is alloyed, or mixed.

Increasing in popularity in recent years, white gold has become fashionable as the preferred cool and contemporary look. White gold boasts the same properties as classic yellow gold, but achieves its white color by mixing with different alloys. In general, white gold is created when a nickel or palladium alloy (zinc and copper) is used. White gold may also be plated with an even whiter metal, such as rhodium, to enhance its cool appearance. As well, a white gold setting can enhance the rapture of white diamonds.

Gold Karat
Gold's softness and malleability make it a wonderful metal to work with when creating virtually any design in jewelry. But this softness can be a drawback as well. To make it stronger and more durable, gold is usually alloyed, or mixed, with other metals such as copper or silver. The higher a metal's percentage of gold content, the softer and more yellow the jewelry piece. The karat weight system used to measure gold in a piece is the same for all hues, including white and yellow gold.

The word “carat” is Arabic, meaning “bean seed.” This is because historically seeds were used to measure weights of gold and precious stones. In the United States, “karat” with a “k” is used to measure gold's purity, while “carat” with a “c” is used in measuring a gemstone's size. The karat mark of gold represents the percentage of pure gold to alloy.

  • 24K is pure gold or 100% gold
  • 21K is 21/24ths gold content or 87.5% gold: In the United States, jewelry with this karatage or higher is rare. It is far more common in Europe, the Middle East and Southeast Asia.
  • 18K is 18/24ths gold content or 75% gold: This karatage is a popular high-end choice in the United States, Europe and other regions. Its popularity is spreading throughout North America.
  • 14K is 14/24ths gold content or 58.5% gold: This is the most common gold karatage in the United States because of its fine balance between gold content, durability and affordability.
  • 10K is 10/24ths gold content or 41.7% gold: This karatage is gaining popularity for its affordability and durability. Commonly used in everyday-wear jewelry such as rings, 10K gold beautifully withstands wear and tear. It is the lowest gold content that can be legally marked or sold as gold jewelry in the United States.

    In order to determine the karat weight of a specific item, simply look for the quality mark. Jewelry items will bear the stamp of their karatage based upon the United States or European system of marking. The United States system designates pieces by their karats—24K, 18K, 14K, 10K, etc. The European system designates pieces by their percentage of gold content. For instance, 10K gold is marked “417,” denoting 41.7% gold; 14K is marked “585,” denoting 58.5% gold; and 18K is marked “750,” denoting 75% gold; etc.

    Created exclusively by Charles & Colvard, Moissanite is a model of sheer beauty that is fast becoming a shining star in today’s hottest jewelry designs. It is a high-quality, uniquely created stone unlike any other.

    Created Moissanite has very high dispersion and displays 2.4 times more fire than diamond (0.044). Its inherent high refractive index gives Moissanite a dazzling sparkle, while its precisely calibrated and carefully hand-cut facet patterns intensify fire and maximize brilliance.

    Moissanite is extremely durable. It is harder (more resistant to scratching) than ruby or sapphire – second only to diamond – and it is resistant to breakage.

    Larger sizes of near-colorless Moissanite (6.5mm or 1 carat and larger) might appear to have a slight color. A variety of factors, such as dispersion, tint and the type of jewelry setting, can create and affect this unique color appearance. Moissanite aficionados enjoy the slight hue that results in a very natural-looking gemstone, even though it's lab-created.

    Natural mined diamonds are slightly heavier in weight than Moissanite stones because of Moissanite's chemical properties and structure. Essentially, Moissanite is less dense and therefore lighter than a diamond of the same size. For instance, an 8mm diamond with a 2.00 carat weight would compare to an 8mm Moissanite that has a carat weight of approximately 1.73. That said, the Moissanite would be classified as a 2.00 DEW (diamond equivalent weight) because of its size. This is a useful comparison tool when shopping for Moissanite as a diamond alternative.

    Moissanite’s high dispersion produces flashes of rich rainbow (spectral) colors. The appearance and degree of these tints are less noticeable when Moissanite is set in jewelry. Jewelry set in gold (yellow, rose or white) and/or set in platinum will affect the face-up appearance of Moissanite.

    Nobel Prize-winning chemist Dr. Henri Moissan discovered minute quantities of natural silicon carbide (later named Moissanite in his honor) while analyzing part of Arizona’s Diablo Canyon meteorite crater in 1893. Upon close inspection, he noticed the tiny crystals shimmered with brilliance and dispersion, although they were too limited in quantity and not large enough to use in jewelry.

    Almost 100 years after Dr. Moissan's amazing discovery, a way to create Moissanite was developed. Appreciated for its overwhelming brilliance, Moissanite continues to take the jewelry world by storm.

    Glossary

    Brilliance: The white light leaving a jewel, traveling upward, which is visible to the eye. Brilliance is sometimes referred to as "sparkle."

    Dispersion: Flashes of rainbow colors. Also called "fire."

    Hardness: Resistance to scratching. The higher the number, the more resistant.

    Luster: The shininess of a jewel.

    Toughness: Resistance to breakage.

    Created or Simulated Gemstones: How are created or simulated gemstones different from natural gemstones? Natural gems are created by the forces of nature and must be discovered, usually by digging in the ground or sifting through a riverbed. When these stones are created in a laboratory, they are called created, simulated or synthetic gemstones.

    The purpose of creating gemstones in a laboratory isn’t necessarily to reduce the cost, but also to produce larger, more perfectly consistent stones. Created or simulated gems can be made of any material. Synthetic gems, however, share virtually all chemical, optical and physical characteristics of their natural mineral counterparts.

    Austrian Crystals: These are known for their excellent reflective quality and prismatic brilliance. This man-made crystal is created using natural minerals and quartz sand, which are then heated and slowly cooled using a process similar to that of creating hand-blown glass. This process creates an end product that can be fashioned into a beautiful crystal.

    A special machine is used to create a highly faceted crystal. The crystals are cut in various directions, which allows for excellent light refraction, exceptional brilliance and unsurpassed color quality at an affordable price.

    Today Swarovski® is one of the largest suppliers of high-end crystals. In the late 1800s, Daniel Swarovski invented a machine to cut crystal with extreme precision. He patented his technique and to this day, only select Swarovski family members and employees have unrestricted access to the production facility that creates these crystals. They are used to decorate everything from stilettos and sculptures, to chandeliers, jewelry and clothing.