VD0584 Thulium (Tm) evaporation materials

Description

Thulium (Tm) evaporation materials have several properties that support various applications. These materials exhibit stable thermal behaviour, which enables them to maintain their integrity under high-temperature conditions. In addition, Thulium evaporation materials demonstrate high evaporation rates, which allow the controlled deposition of thin films on various substrates.

The optical properties of Thulium are well documented, as it displays strong absorption and emission characteristics in the infrared range. This feature renders Thulium evaporation materials suitable for use in optical devices that require efficient infrared transmission or emission.

Moreover, Thulium evaporation materials exhibit high electrical conductivity. This quality qualifies them for electronic applications where high performance is necessary. Their ability to form smooth and even thin films further contributes to their functionality in these applications.

Specification

Applications

1. Optical Devices and Lasers: Thulium exhibits strong absorption and emission characteristics in the infrared range. Manufacturers utilise these properties in the fabrication of optical devices and lasers. The material is employed in infrared spectroscopy, sensing and telecommunication.

2. Fibre Optics: Materials containing Thulium are used in fibre optics. The optical properties enable the efficient transmission of infrared light through glass fibres, thereby improving the performance and capacity of fibre optic communication systems.

3. Thin Film Coatings: Thulium evaporation materials are used for the deposition of thin films on various substrates. This process produces coatings with defined properties. The coatings are applied to improve surface characteristics such as reflectivity, transmittance or durability and are used in fields including optics and photovoltaics.

4. Research and Development: The properties of Thulium evaporation materials are investigated in research laboratories. Scientists measure the optical, electrical and thermal characteristics under controlled conditions to obtain quantitative data.

5. Solid-State Lasers: Thulium-doped solid state materials are employed to construct lasers that emit in the infrared range. These lasers are applied in material processing, medical procedures and scientific research.

Packaging:

Our evaporation materials are handled carefully to prevent damage during storage and transport, thereby maintaining the product quality in its original condition.