A feldspar with a solar signature

Sunstone isn’t a species but a trade name for aventurescent feldspar. Most gemmy material is plagioclase (oligoclase to labradorite; triclinic). The glittering effect—schiller—comes from oriented metallic inclusions that act like tiny mirrors.

Why “aventurescence”?

The term mirrors “aventurine” glass, a Venetian discovery with copper flakes—appropriate, since many sunstones owe their flash to copper platelets. Historic texts sometimes call sunstone heliolite (“sun‑stone”).

Volcanic origins

Many sunstones grow as phenocrysts in basaltic flows. Later cooling and fluid activity allow metals to exsolve or precipitate as platelets aligned along cleavage and growth planes—perfect geometry for sparkle.

Two inclusion styles

Copper‑bearing stones (e.g., Oregon) show floating copper platelets and can have green‑to‑red body color. Iron‑oxide stones (e.g., India, Norway) host hematite/ilmenite/goethite laths, giving warm gold‑to‑orange schiller.

From subtle to spectacular

Platelet size, density, and orientation control the effect—fine “glitter,” broad satiny sheets, or windows with no schiller for clean faceting.

Palette

• Champagne/gold — classic warmth.
• Peach–orange — lively, friendly color.
• Fiery red — copper‑rich Oregon specialties.
• Green — rarer copper‑bearing tones.
• Coppery flash — the hallmark schiller.

Surface luster is vitreous. Inclusions add a metallic sparkle that intensifies under directional light.

Pattern words

• Schiller sheets — broad, satiny planes of sheen.
• Confetti — fine, dancing points of light.
• Snow‑globe — suspended platelets through the body.
• Zonation/bicolor — color areas from copper content or growth history.

Photo tip: Use a single, tight key light and tilt the stone until the flash switches on. A black card opposite the light increases metallic contrast.

Metallic platelets

Expect tabular platelets with sharp edges—copper (rose to orange, high reflectivity) or hematite/ilmenite (bronze to reddish). They often align parallel to cleavage, creating planes of flash.

Traveling flash

Tilt the stone: the on/off sparkle leaps across the cabochon. In faceted gems, look for flashes along pavilion facets as the stone rocks.

Treatment clues

Diffusion‑altered feldspar may show surface‑concentrated color or suspiciously uniform reds/oranges. Conclusive calls require a gem lab (spectroscopy/chemistry).

Goldstone (glass)

Copper‑flake glass with very uniform sparkle; no feldspar cleavage or RI. Often sold as “sunstone” in tourist markets—beautiful, but a glass imitation.

Aventurine quartz

Green/orange quartz with mica/chromite glitter. Higher hardness (7), different look under magnification (flake shapes, no feldspar twinning).

Citrine / spessartite

Similar warm hues but no metallic schiller. RI/SG and absence of traveling glitter separate them immediately.

Hematite‑included quartz

“Strawberry/fire” quartz shows red needles/plates in quartz—again hardness 7, different optic character, and inclusions not aligned to feldspar cleavage.

Labradorite (labradorescence)

Broad interference sheen (blue/green) rather than metallic glitter. Spectacular, but a distinct phenomenon.

Quick checklist

• Warm hue with metallic flash that moves?
• RI ~1.55, SG ~2.65, perfect cleavage?
• Platelets seen at 10×, aligned in planes? → Likely sunstone.

Where it shines

USA (Oregon) — copper‑bearing labradorite with reds/greens and dramatic schiller; India — golden hematite‑bearing oligoclase; Norway — classic sunstone in feldspathic rocks. Smaller occurrences exist elsewhere in basaltic or metamorphic terrains.

What people make

Cabochons oriented for maximum flash, faceted gems from clean areas, beads & inlay for warm, glittering color accents. Good makers “aim the schiller” toward the viewer.

Everyday care

• Clean with lukewarm water + mild soap; soft cloth dry.
• Avoid ultrasonics, steam, and harsh chemicals, especially for included stones.
• Store separately; harder gems (quartz, corundum) can scratch feldspar.

Jewelry guidance

• Great for pendants, earrings, brooches.
• For rings/bracelets, choose protective settings (bezels, low profiles) to respect cleavage.
• Orient cabs so the schiller faces up at normal viewing angles.

On the wheel

• Map cleavage and schiller planes before cutting; light pressure, keep cool.
• Pre‑polish 600→1200→3k; finish with cerium oxide on felt/leather.
• For thin schiller sheets, leave a touch more crown height to preserve the effect.

Tilt to “ignite”

Under a single point light, rock the stone until the schiller snaps on. Mark that angle—setters can use it to aim the flash at the viewer.

Microscope tour

At 10–30×, find copper or hematite platelets and trace a schiller plane. It turns the gem into a tiny solar array.