Deep in the Myanmar Mogok region, a tiny reddish-orange crystal sat unnoticed. To the untrained eye, it seemed like many other stones—polished by water, overlooked by miners seeking sapphires. But this unassuming gem, later named kyawthuite, is unlike anything else on Earth; or at least, anything else that we know of. It is the rarest mineral known to science, with only a single specimen ever discovered.
The only sample found thus far, weighing a mere 1.61 carats (0.3 grams), has sparked immense intrigue among scientists and collectors alike.
A Singular Gem
The kyawthuite crystal was discovered in 2010 by sapphire hunters in the Chaung Gyi Valley, near Mogok, Myanmar. Initially mistaken for an ordinary gem, it was later identified as unique by Dr. Kyaw Thu, a prominent mineralogist. After extensive analysis, the International Mineralogical Association (IMA) officially recognized kyawthuite as a new mineral in 2015. Today, the sole specimen resides in the Natural History Museum of Los Angeles County, where it is safeguarded as a geological treasure.
Kyawthuite is a bismuth-antimony oxide, with the chemical formula Bi₃⁺Sb₅⁺O₄, with traces of tantalum. These elements, though not exceedingly rare individually, formed under unique conditions that scientists are only beginning to understand. The mineral’s structure includes checkerboard-like sheets of antimony and oxygen, nestled against bismuth atoms. Its density is eight times that of water so it is much heavier than meets the eye.
Kyawthuite is thought to have originated in pegmatite, an igneous rock formed during the late stages of magma crystallization. Myanmar’s geology, shaped by the collision of the Indian and Asian tectonic plates, provided the intense heat and pressure needed for such rare minerals to form. This cataclysmic event during the Paleocene-Eocene epoch not only created kyawthuite but also endowed the region with a wealth of gemstones, including the deep-red crystals of painite—the world’s second-rarest mineral; a borate mineral containing the rare pairing of zirconium and boron.
Ethical Concerns and Scientific Curiosity
Myanmar’s rich mineral deposits come with a sobering backdrop. Decades of political instability, military control, and human rights abuses cast a shadow over its gemstone trade. Mining practices in the region have drawn criticism for unsafe conditions, forced labor, and child exploitation. These ethical concerns have prompted some to boycott materials sourced from Myanmar, limiting the study and commercialization of its rare minerals.
Nevertheless, kyawthuite is a stunning example of geology in motion, a glimpse into the planet’s intricate geological processes. Unlike synthetic replicas of the mineral—chemically identical and easier to produce—the natural kyawthuite crystal embodies millions of years of geological evolution.