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5.40 cts Dominican Amber Cabochon TBG-4562 Truebluegems WB-ET-RJ
- SKU
- TBG-4562
- Dimenzije (mm)
- 25.9 x 15.06 x 3.6mm
- Težina (cts)
- 5.4
- Treatment
- No Treatment
- Shape
- Oval
- Type
- Cabochon
- Boje
-
AMBER
Dominican Republic
TREATMENT-NONE
NICE HONEY ORANGE COLOR TO BLUE UNDER UV LIGHT
Dominican Amber comes from the fossilized resin of an extinct leguminous tree's sap called Hymenaea Protera
Dominican amber is a type of fossilized tree resin, approximately 25-40 million years old, known for its high clarity and variety of colors, including the rare and sought-after blue amber that fluoresces under UV light
Fluorescence is one of two kinds of photoluminescence, the emission of light by a substance that has absorbed light or other electromagnetic radiation. When exposed to ultraviolet radiation, many substances will glow (fluoresce) with colored visible light. The color of the light emitted depends on the chemical composition of the substance. Fluorescent materials generally cease to glow nearly immediately when the radiation source stops. This distinguishes them from the other type of light emission, phosphorescence. Phosphorescent materials continue to emit light for some time after the radiation stops. This difference in duration is a result of quantum spin effects.
Fluorescence occurs when a photon from incoming radiation is absorbed by a molecule, exciting it to a higher energy level, followed by the emission of light as the molecule returns to a lower energy state. The emitted light may have a longer wavelength and, therefore, a lower photon energy than the absorbed radiation. For example, the absorbed radiation could be in the ultraviolet region of the electromagnetic spectrum (invisible to the human eye), while the emitted light is in the visible region. This gives the fluorescent substance a distinct color, best seen when exposed to UV light, making it appear to glow in the dark. However, any light with a shorter wavelength may cause a material to fluoresce at a longer wavelength. Fluorescent materials may also be excited by certain wavelengths of visible light, which can mask the glow, yet their colors may appear bright and intensified. Other fluorescent materials emit their light in the infrared or even the ultraviolet regions of the spectrum.
TRADING AS TRUEBLUEOPALS PTY LTD / LIGHTNINGOPALS LLC
| Pružatelj usluge dostave | Dostava Australija | Dostava u ostatak svijeta | Kombinirana dostava ( Australija ) | Kombinirana dostava (ostatak svijeta) |
|---|---|---|---|---|
| Standard Shipping - Tracked |
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| FedEx |
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| DHL |
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Nije dostupno |
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- SKU
- TBG-4562
- Dimenzije (mm)
- 25.9 x 15.06 x 3.6 mm
- Težina (cts)
- 5.4
- Treatment
- No Treatment
- Shape
- Oval
- Type
- Cabochon
- Boje
-
AMBER
Dominican Republic
TREATMENT-NONE
NICE HONEY ORANGE COLOR TO BLUE UNDER UV LIGHT
Dominican Amber comes from the fossilized resin of an extinct leguminous tree's sap called Hymenaea Protera
Dominican amber is a type of fossilized tree resin, approximately 25-40 million years old, known for its high clarity and variety of colors, including the rare and sought-after blue amber that fluoresces under UV light
Fluorescence is one of two kinds of photoluminescence, the emission of light by a substance that has absorbed light or other electromagnetic radiation. When exposed to ultraviolet radiation, many substances will glow (fluoresce) with colored visible light. The color of the light emitted depends on the chemical composition of the substance. Fluorescent materials generally cease to glow nearly immediately when the radiation source stops. This distinguishes them from the other type of light emission, phosphorescence. Phosphorescent materials continue to emit light for some time after the radiation stops. This difference in duration is a result of quantum spin effects.
Fluorescence occurs when a photon from incoming radiation is absorbed by a molecule, exciting it to a higher energy level, followed by the emission of light as the molecule returns to a lower energy state. The emitted light may have a longer wavelength and, therefore, a lower photon energy than the absorbed radiation. For example, the absorbed radiation could be in the ultraviolet region of the electromagnetic spectrum (invisible to the human eye), while the emitted light is in the visible region. This gives the fluorescent substance a distinct color, best seen when exposed to UV light, making it appear to glow in the dark. However, any light with a shorter wavelength may cause a material to fluoresce at a longer wavelength. Fluorescent materials may also be excited by certain wavelengths of visible light, which can mask the glow, yet their colors may appear bright and intensified. Other fluorescent materials emit their light in the infrared or even the ultraviolet regions of the spectrum.
TRADING AS TRUEBLUEOPALS PTY LTD / LIGHTNINGOPALS LLC
| Pružatelj usluge dostave | Dostava Australija | Dostava u ostatak svijeta | Kombinirana dostava ( Australija ) | Kombinirana dostava (ostatak svijeta) |
|---|---|---|---|---|
| Standard Shipping - Tracked |
|
|
|
|
| FedEx |
|
|
|
|
| DHL |
|
|
Nije dostupno |
|
family business.
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PozitivanBeautiful thankyou
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Pozitivan
Beautiful
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Pozitivan
Gorgeous gem, super fast delivery! Thank you
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Pozitivan
Beautiful Ammolite! This is going to make a beautiful pendant!
