From Secret Diamond:
"Diamond fluorescence is the visible wavelengths emitted by diamond when excited by invisible radiation."
You can read more about it, below.
Rb in relation to diamonds stands for "red fluorescence." This term refers to the presence of a red glow that some diamonds emit when exposed to ultraviolet light. Diamonds with strong red fluorescence may appear slightly pinkish or purplish in natural light.
it formed in a formation where flourescent minerals were present and they became part of the carbon bond that makes up the diamond. it usually makes the diamond more valuable. the hope diamond is flourescent (blue?)
According to the Gemological Institute of America (GIA): "Fluorescence is the emission of visible light by a diamond when it is stimulated by invisible ultraviolet (UV) rays. It is a common characteristic of diamonds. The diamond simply glows under the UV lights, usually a blue color, which most often stops when the energy source causing it is removed." One interpretation of how to balance fluorescence and stone colour when valuing a stone is available through the link, below.
Fluorescence in diamonds is caused by exposure to ultraviolet (UV) light which excites the atoms within the diamond, causing them to emit visible light. Certain impurities or defects within the diamond crystal lattice can also contribute to fluorescence, resulting in different colors such as blue, yellow, or white fluorescence.
Every individual diamond may or may not have a natural fluorescence. This characteristic is both a scientific factor and an emotional -- eye candy -- factor in a diamond. You can read more, below.
Rb in relation to diamonds stands for "red fluorescence." This term refers to the presence of a red glow that some diamonds emit when exposed to ultraviolet light. Diamonds with strong red fluorescence may appear slightly pinkish or purplish in natural light.
No, real diamonds do not glow in the dark on their own. They do not possess any inherent luminescence properties. However, under UV light, some diamonds may exhibit fluorescence and emit a subtle glow.
it formed in a formation where flourescent minerals were present and they became part of the carbon bond that makes up the diamond. it usually makes the diamond more valuable. the hope diamond is flourescent (blue?)
One characteristic of diamond may be its fluorescence. From the link below: "Fluorescence, produced by ultraviolet light from the sun, by black lighting or other long-wavelength UV source, occurs in an estimated 35% of gem grade diamonds."
According to the Gemological Institute of America (GIA): "Fluorescence is the emission of visible light by a diamond when it is stimulated by invisible ultraviolet (UV) rays. It is a common characteristic of diamonds. The diamond simply glows under the UV lights, usually a blue color, which most often stops when the energy source causing it is removed." One interpretation of how to balance fluorescence and stone colour when valuing a stone is available through the link, below.
Fluorescence in diamonds is caused by exposure to ultraviolet (UV) light which excites the atoms within the diamond, causing them to emit visible light. Certain impurities or defects within the diamond crystal lattice can also contribute to fluorescence, resulting in different colors such as blue, yellow, or white fluorescence.
Every individual diamond may or may not have a natural fluorescence. This characteristic is both a scientific factor and an emotional -- eye candy -- factor in a diamond. You can read more, below.
Diamonds glow white under a black light due to the phenomenon of fluorescence, which causes certain substances to emit visible light when exposed to specific wavelengths of ultraviolet light. This fluorescence is a natural property of some diamonds due to the presence of trace elements or structural defects in the crystal lattice.
Some gemstones that exhibit fluorescence or phosphorescence can appear to glow under ultraviolet light. Some examples include diamonds, rubies, emeralds, opals, and sapphires. The fluorescence effect can vary depending on the specific gemstone and its unique chemical composition.
Some diamonds can exhibit fluorescence when exposed to ultraviolet light, often appearing blue or white. This phenomenon is not always present in all diamonds and varies depending on the type and quality of the stone.
If the diamond has natural fluorescence -- about 60% of diamonds do -- then, yes, it will glow under black light.
Fluorescence is a property not a mineral.