A Photogallery of Red Emerald Disturbance ModificationsThe formation of beryl crystals under pressure and stress increases the incidence of surface modifications in both the green and red varieti
Classic Emerald Crystal Habits: The PrismThe Red Emerald crystallizes in the same prismatic hexagonal form as the Green Emerald, and possesses the same unique identifying crystal mo
A Red Emerald WorldFor the website's three month anniversary, we review demographics of Red Emerald Fans to illustrate the long reach and importance of gem
Trace Elements of the Red EmeraldColors in gemstones & Red Emerald are caused by chromophores: trace metal impurities present during formation which remain trapped in th
Red Spotlight On...An American RoseAn American Rose is a pendant featuring the fourth largest Benitoite stone ever faceted, along with a 3.75 ct supply of Red Emerald melee in
An Introduction to the Hexagonal Crystal SystemHexagonal molecules of beryllium and oxygen form cyclosilicate six-sided rings stacked on a lattice to form crystals of the mineral red bery
红色祖母绿珍品套装早在有文字记载之前,人类就将宝石视为至宝,祖母绿、蓝宝石、红宝石,不一而足。在人类文明早期,就将红色刚玉尊称为“红宝石”。三百多年前,彩色钻石进入了人们的认知,彩色绿柱石的发现也可追溯到一百多年前。在所有的宝石中,红色都是最稀有的色彩。1958年,红色祖母绿的发现,填补了人类发现
Family Ties of Type III BerylRed and Green Beryl share crystal structure & gemological similarities that cause gemstones to exhibit the same optical characteristics
The Geologic History of the Wah-Wah DepositThe geological and chemical conditions required for red beryl crystallization and Red Emerald formation are examined.
The Thomas Range Red Beryl DepositRed Emeralds formed 23 to 18 million years ago; the red beryl from the Thomas Range shows unique mineralogical characteristics in crystal ha