An original 1950s custom made aquamarine and solid 18K yellow gold cocktail, birthstone or engagement ring.
This beautiful aquamarine ring is entirely hand made.
The design is both modernist and sensual. Inside a sweeping tear drop of fine gold an array of precious earth mined aquamarines is set in an asymmetric cluster. From every angle the ring looks extraordinarily beautiful. It really is a work of art.
In total the ring weighs 6.69 grams.
This stunning natural aquamarine cluster ring is in beautiful condition and is ready to gift or to wear.
The total weight of fine natural untreated earth mined aquamarines is 1.65 carats.
This one of a kind ring measures 1" wide and is 5/8" long (25mm x 16mm). It rises 5/16" off the finger (8mm).
Currently it is a ring size 5 1/4 to 5 3/8 USA sizing. It can be resized within a range.
My favorite jewelry is one of a kind custom pieces made in the modernist style that date between the 50s and 70s. I love their uniqueness and sophistication. During the last 10 years these rare pieces have spiraled upwards in price because of sheer rarity and the growing international collectors market who appreciate original modernist design. This trend is set to continue strongly well into the future.
This superb modernist gold ring is a one of a kind collector's item. The aquamarines sparkle like crazy and it is a joy to look at!
Certainly highly individual it is stylish and memorable just like you!
An Appraisal Report shall accompany this item. This appraisal has been made by a professional Gemologist and accredited Jewelry Appraiser who is a specialist in the field.
The photos form part of the description. Like all colored stones there is a color variation that occurs in different lighting conditions both inside but also outside, even the time of day can make the color of a stone appear a little different. We do our best to show colors as we see them. Color perception is highly individual and some people can perceive more colors than others, also colors can appear somewhat different on different screens and devices due to variations in screen hardware and device display settings.