erbium - definition. What is erbium
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CHEMICAL ELEMENT WITH ATOMIC NUMBER 68
Element 68; Er (element); Urbium; Organoerbium compounds; Organoerbium; Erbium compound; History of erbium
  • Erbium(III) oxide powder
  • Erbium(III) chloride hydrate
  • Erbium-colored glass
  • Monazite sand
  • [[Carl Gustaf Mosander]], the scientist who discovered erbium, lanthanum and terbium.

Erbium         
·add. ·noun A metallic element of the rare earth group, found in gadolinite and some other minerals. Symbol, Er; at. wt. 167.4. Its salts are rose-colored and give characteristic spectra.
II. Erbium ·noun A rare metallic element associated with several other rare elements in the mineral gadolinite from Ytterby in Sweden. Symbol Er. Atomic weight 165.9. Its salts are rose-colored and give characteristic spectra. Its sesquioxide is called erbia.
erbium         
['?:b??m]
¦ noun the chemical element of atomic number 68, a soft silvery-white metal of the lanthanide series. (Symbol: Er)
Origin
C19: mod. L., from Ytterby (see ytterbium).
Erbium         
Erbium is a chemical element with the symbol Er and atomic number 68. A silvery-white solid metal when artificially isolated, natural erbium is always found in chemical combination with other elements.

ويكيبيديا

Erbium

Erbium is a chemical element with the symbol Er and atomic number 68. A silvery-white solid metal when artificially isolated, natural erbium is always found in chemical combination with other elements. It is a lanthanide, a rare-earth element, originally found in the gadolinite mine in Ytterby, Sweden, which is the source of the element's name.

Erbium's principal uses involve its pink-colored Er3+ ions, which have optical fluorescent properties particularly useful in certain laser applications. Erbium-doped glasses or crystals can be used as optical amplification media, where Er3+ ions are optically pumped at around 980 or 1480 nm and then radiate light at 1530 nm in stimulated emission. This process results in an unusually mechanically simple laser optical amplifier for signals transmitted by fiber optics. The 1550 nm wavelength is especially important for optical communications because standard single mode optical fibers have minimal loss at this particular wavelength.

In addition to optical fiber amplifier-lasers, a large variety of medical applications (i.e. dermatology, dentistry) rely on the erbium ion's 2940 nm emission (see Er:YAG laser) when lit at another wavelength, which is highly absorbed in water in tissues, making its effect very superficial. Such shallow tissue deposition of laser energy is helpful in laser surgery, and for the efficient production of steam which produces enamel ablation by common types of dental laser.