identify-gemstone
정보
이 Claude Skill은 보석의 광학적 특성, 물리적 검사, 내포물을 분석하여 보석을 식별합니다. 이는 보석의 종류를 확인하고, 천연석과 모조석을 구분하며, 원석의 안전한 취급을 보장하는 데 도움을 줍니다. 주요 기능으로는 굴절률, 비중, 분광학적 지표 검사가 포함됩니다.
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문서
Identify Gemstone
ID gemstones using systematic physical + optical property testing, inclusion analysis, elimination vs known species profiles.
When Use
- Unknown gemstone or suspect gemstone, want to ID species
- Verify seller's claim about gemstone identity
- Tell natural gemstone from common simulant or synthetic
- Build gemological literacy through structured observation + testing
- ID rough material before cutting for safe handling
Inputs
- Required: Gemstone specimen (loose stone preferred; mounted limit testing)
- Optional: Refractometer with contact liquid (RI fluid, 1.81 standard)
- Optional: Dichroscope (pleochroism testing)
- Optional: Chelsea colour filter
- Optional: Specific gravity balance or heavy liquids
- Optional: 10x loupe or gemological microscope
- Optional: UV lamp (long-wave 365nm + short-wave 254nm)
- Optional: Polariscope (optic character determination)
Steps
Step 1: Visual Inspection
Examine specimen with unaided eye then under 10x magnification.
Visual Inspection Checklist:
+--------------------+------------------------------------------+
| Observation | Record |
+--------------------+------------------------------------------+
| Colour | Hue (red, blue, green...), saturation |
| | (vivid, moderate, weak), tone |
| | (light, medium, dark) |
+--------------------+------------------------------------------+
| Transparency | Transparent, translucent, opaque |
+--------------------+------------------------------------------+
| Luster | Adamantine, vitreous, waxy, pearly, |
| | silky, resinous |
+--------------------+------------------------------------------+
| Cut style | Faceted, cabochon, carved, rough |
+--------------------+------------------------------------------+
| Estimated size | Approximate dimensions (mm) and weight |
+--------------------+------------------------------------------+
| Surface condition | Scratches, chips, abrasion, wear pattern |
+--------------------+------------------------------------------+
| Phenomena | Star (asterism), cat's eye |
| | (chatoyancy), play of colour, colour |
| | change, adularescence |
+--------------------+------------------------------------------+
- Note body colour under daylight-equivalent lighting (5500-6500K)
- Check colour zoning by viewing through stone from different angles
- Assess transparency + luster — narrows candidates immediate
- Look for optical phenomena (star, cat's eye, play of colour)
- Record any visible inclusions without magnification
Got: Complete visual profile — colour, transparency, luster, phenomena. Alone narrows candidates to manageable shortlist.
If fail: Lighting poor (yellowish indoor)? Note limitation. Daylight or daylight-equivalent bulbs strongly preferred. Incandescent shifts colour perception → misidentification of colour-change stones.
Step 2: Physical Property Testing
Test measurable physical properties to narrow ID.
Key Physical Properties:
+--------------------+------------------------------------------+
| Property | Method |
+--------------------+------------------------------------------+
| Hardness (Mohs) | Scratch test against reference minerals |
| | or hardness pencils. CAUTION: Do NOT |
| | scratch faceted gemstones — use other |
| | tests instead for cut stones |
+--------------------+------------------------------------------+
| Specific gravity | Hydrostatic weighing: |
| (SG) | SG = weight in air / (weight in air - |
| | weight in water) |
| | |
| | Common SG values: |
| | Quartz: 2.65 |
| | Beryl: 2.68-2.74 |
| | Tourmaline: 3.02-3.26 |
| | Topaz: 3.53 |
| | Corundum: 3.99-4.01 |
| | Zircon: 4.60-4.73 |
| | CZ: 5.65-5.95 |
+--------------------+------------------------------------------+
| Heft | Does the stone feel heavier or lighter |
| | than expected for its size? |
| | CZ and zircon feel noticeably heavy |
| | Quartz and glass feel average |
+--------------------+------------------------------------------+
- Rough material: test hardness using Mohs scale reference points
- Cut stones: measure specific gravity using hydrostatic method
- Assess heft — experienced handlers can tell CZ from diamond by weight alone
- Note any cleavage planes visible on surface
Got: Hardness range (rough) or SG value (cut stones) differentiates between candidate species. SG often most powerful single diagnostic for cut stones.
If fail: Hydrostatic balance unavailable? Use heft test as rough guide. Stones "too heavy for size" likely have high SG (>3.5). Hardness testing would damage cut stone? Skip to optical tests.
Step 3: Optical Tests
Apply gemological optical instruments for definitive properties.
Optical Property Tests:
+--------------------+------------------------------------------+
| Test | What It Reveals |
+--------------------+------------------------------------------+
| Refractive Index | Measured on refractometer with RI fluid |
| (RI) | Diagnostic for most species: |
| | Quartz: 1.544-1.553 |
| | Beryl: 1.577-1.583 |
| | Tourmaline: 1.624-1.644 |
| | Topaz: 1.609-1.617 |
| | Corundum: 1.762-1.770 |
| | Spinel: 1.718 |
| | Diamond: 2.417 (OTL on refractometer) |
| | CZ: 2.15 (OTL on refractometer) |
+--------------------+------------------------------------------+
| Birefringence | Difference between high and low RI |
| (BR) | Quartz: 0.009 |
| | Corundum: 0.008 |
| | Tourmaline: 0.018-0.020 |
| | Singly refractive: 0 (spinel, garnet, |
| | diamond) |
+--------------------+------------------------------------------+
| Pleochroism | Colour variation with crystal direction |
| (dichroscope) | Strong: tourmaline, tanzanite, iolite |
| | Moderate: corundum, topaz |
| | None: singly refractive stones |
+--------------------+------------------------------------------+
| Optic character | Singly refractive (SR), doubly |
| (polariscope) | refractive (DR), aggregate (AGG) |
+--------------------+------------------------------------------+
| UV fluorescence | Long-wave and short-wave UV response |
| | Diamond: often blue (LWUV) |
| | Ruby: strong red (LWUV) |
| | Emerald: usually inert |
+--------------------+------------------------------------------+
| Chelsea filter | Transmits deep red and yellow-green |
| | Emerald (Cr): appears red/pink |
| | Aquamarine: appears green |
| | Blue synthetic spinel: appears red |
+--------------------+------------------------------------------+
- Measure RI on refractometer — take both high + low readings for birefringence
- Test pleochroism with dichroscope — rotate slow + note colour changes
- Check optic character on polariscope (SR vs DR vs AGG)
- Test UV fluorescence under both long-wave + short-wave
- Use Chelsea filter if chromium-coloured stones suspected
Got: RI value (to 0.001), birefringence, optic character, pleochroism description, UV response. Combined with Step 2, IDs most gemstone species definitive.
If fail: RI over-the-limit (OTL, >1.81)? Stone likely diamond, CZ, zircon (high-type), or high-RI synthetic. Use SG + thermal conductivity to differentiate. No refractometer? Rely on SG + visual properties + inclusions.
Step 4: Inclusion Analysis
Examine internal features under magnification for species confirmation + natural vs synthetic determination.
Diagnostic Inclusions by Species:
+------------------+------------------------------------------+
| Species | Characteristic Inclusions |
+------------------+------------------------------------------+
| Diamond | Crystals (garnet, diopside), feathers, |
| | cloud, graining, pinpoints |
+------------------+------------------------------------------+
| Ruby/Sapphire | Silk (rutile needles), fingerprints, |
| | colour zoning (straight angular), |
| | crystal inclusions |
+------------------+------------------------------------------+
| Emerald | Three-phase inclusions (solid + liquid + |
| | gas), jardin (garden-like fractures), |
| | pyrite crystals |
+------------------+------------------------------------------+
| Tourmaline | Growth tubes, liquid-filled fractures |
+------------------+------------------------------------------+
| Quartz/Amethyst | Tiger stripes, phantoms, two-phase |
| | inclusions, negative crystals |
+------------------+------------------------------------------+
Synthetic Indicators:
+------------------+------------------------------------------+
| Synthetic Type | Telltale Inclusions |
+------------------+------------------------------------------+
| Flame fusion | Curved growth lines (striae), |
| (Verneuil) | gas bubbles (spherical) |
+------------------+------------------------------------------+
| Flux grown | Flux fingerprints (wispy veils), |
| | platinum platelets |
+------------------+------------------------------------------+
| Hydrothermal | Chevron or zigzag growth patterns, |
| | seed plate remnant |
+------------------+------------------------------------------+
| Glass simulants | Round gas bubbles, swirl marks, |
| | conchoidal fracture chips |
+------------------+------------------------------------------+
- Examine stone under darkfield illumination (gemological microscope) or oblique lighting through 10x loupe
- Look for species-diagnostic inclusions first
- Check synthetic indicators — curved striae + gas bubbles definitive for flame-fusion synthetics
- Note inclusion type, location, frequency
- Photograph inclusions if possible for records
Got: Species-confirming inclusion pattern + natural/synthetic determination. Some species IDed more by inclusions than optical properties (emerald's jardin).
If fail: Stone eye-clean + no inclusions visible at 10x? May be very clean natural stone or synthetic. Lack of inclusions raises synthetic probability — refer to optical + physical tests for confirmation. Laboratory analysis (FTIR, Raman) may be needed.
Step 5: ID by Elimination
Cross-reference all collected data to reach final ID.
- Compile property profile:
- Colour + transparency + luster
- Hardness or SG
- RI + birefringence + optic character
- Pleochroism + UV fluorescence
- Inclusion pattern
- Compare vs reference tables for candidate species
- Eliminate species that conflict with any measured property
- Two or more candidates remain? ID distinguishing test:
- Blue topaz vs aquamarine — SG definitive (3.53 vs 2.70)
- State ID with confidence level:
- Definitive: Multiple properties confirm single species
- Probable: Properties consistent with one species, one test missing
- Uncertain: Conflicting data or insufficient testing — lab referral recommended
Got: Final species ID ("Natural sapphire, blue, heat-treated") with supporting evidence from each test category. Or clear recommendation for lab analysis if field tests insufficient.
If fail: Stone can't be IDed with available equipment? Document all measured properties + refer to gemological laboratory. Provide measured data to lab — accelerates analysis.
Checks
- Visual inspection done under daylight-equivalent lighting
- At least two physical properties measured (hardness/SG + one other)
- RI measured + birefringence computed (if refractometer available)
- Pleochroism tested (if dichroscope available)
- Inclusions examined under at least 10x magnification
- ID reached by systematic elimination, not assumption
- Common simulants explicit considered + ruled out
- Natural vs synthetic determination made (or flagged as uncertain)
Pitfalls
- Trusting colour alone: Colour least reliable ID property. Blue stones include sapphire, topaz, aquamarine, tanzanite, iolite, spinel, glass, CZ. Always confirm with measurable properties
- Skipping SG on mounted stones: Mounted stones limit testing, but can still check RI, pleochroism, inclusions, UV. Document limitation not guess
- Confusing high-RI synthetics with naturals: Flame-fusion rubies + sapphires have identical RI + SG to natural stones. Only inclusions (curved striae vs straight growth) differentiate
- Assuming expensive = natural: Commercial jewellery frequently has treated, synthetic, simulant stones. Test every stone regardless of provenance claims
- Damaging specimen: Never hardness-test faceted gemstone — leaves visible scratches. Use non-destructive tests (RI, SG, inclusions) for cut stones
See Also
cut-gemstone— ID determines safe cutting parameters + orientation requirements for speciesappraise-gemstone— Positive ID prerequisite for meaningful valuationmineral-identification— Field mineral ID methodology using physical properties (prospecting domain) shares systematic elimination approach
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