Nd: YAG laser crystal lens

Nd:YAG crystals lens, also referred to as neodymium doped yttrium-aluminum garne crystals, offer a wide selection of laser medium crystals that are suitable for solid-state lasers. These crystals are distinguished by their high optical quality, excellent thermal and mechanical properties.

Nd: YAG Optical Crystal Lens

Nd:YAG crystals lens due to the high yield, low inter-value high quantum efficiency, a small thermal effect, superior mechanical properties, and words with various operating modes (continuous and intermittent) and other properties that are present in the current range of solid-state lasers. use of the material interaction effects is not the same. There are different types of wavelengths for the laser Nd:YAG opt for a continuous or pulsed type of work that is stretched by different parts of the biological Tissue phase 100 roles. You can get a more effective therapeutic impact. Medical Nd:YAG laser for the fields of surgery, ophthalmology and dentistry and stomatology. It also has a role in otorhinolar dermatology, cosmetology and many other aspects of using many different areas, particularly to treat problems with skin pigmentation. There are distinct advantages including minimal damage, excellent healing, and there is no scar.

Nd:YAG crystals lens is among the best laser crystals that can be obtained by introducing Nd particles into the YAG crystal lens. Dopant, triply Ionized Neodymium Nd(III) is generally replaced by just a small fraction (1 1 %) of yttrium-ionized ions in the primary molecular structure of the yttrium aluminum garnet (YAG) since they have the same dimensions. Neodymium ions are laser-active within the crystal in the same manner as chromium ions from red that are present in the ruby laser.

Nd: YAG Crystal Lens

Solid-state lasers are lasers that have the substrate material is doped by a small amount of activating element to form the primary substance. the physical properties of the working substance are mostly affected by substrate. The spectral properties of the laser are mostly controlled by the energy-level structure light emitting particles. However, because the light emitting particles are influenced with the structure of matrix materials. Its properties in the spectral spectrum are subject to changes and some even undergo major variations. For a substrate, it is mostly garnet crystals, corundum and various glass types and more. These particles are referred to as activation ions. The most widely utilized activation ions are uncommon earth elements ions, such as chromium and neodymium that are extensively used in many fields like medical treatment, laser processing and in military.

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