High stability long-life and high-intensity deuterium lamps. Using the latest material and process technologies, Noblelight's new lamps combine lifetime more than 2,000 hours with unmatched output stability and intensity over their entire life. This sets them apart from other long-life lamps on the market and makes them the ideal choice for high-end (U) HPLC instruments or UV-Vis spectrophotometer.
Product information
The "Enhanced Lifetime Performance (ELP)" technology for Noblelight with a high transmissive synthetic quartz envelope, maintain twice the residual intensity compared to standard D2 lamps at the end of life. The patented ELP coating protects the light emitting part against degradation caused by VUV radiation and reactive plasma components.
See-through versions of all lamps available See-through lamps offer a straight-line arrangement of a tungsten halogen lamp and a deuterium lamp in an optical system. Simplification and cost reduction of UV-Vis spectrophotometers can be achieved using this approach, for example, by elimination of a moveable mirror or a semi-transmissive beam splitter. See-through lamps offer the same unmatched high stability and are available with the same diversity of heater voltages and aperture sizes.
Different spectral ranges available: lamps are available either with UV glass envelope (cutting edge 185 nm) or with high transmissive quartz envelope (cutting edge 160 nm), providing maximum performance depending on your applications or instrument design.
Your advantages
Less instrument recalibration due to improved intensity maintenance over lifetime
Better signal to noise ratio
Shorter sampling time
Higher throughput
Highest precision analytical results
Best price/performance ratio and lowest cost of ownership
Applications areas
High-pressure liquid chromatography (HPLC)
UV-Vis spectroscopy
Atomic absorption spectroscopy (AAS)
Thin film measurement
Thin layer chromatography (TLC)
Laboratory light sources
Fluorescence spectroscopy
Pollution monitoring
Semiconductor inspection
Removal of electrostatic charges from semiconductor wafers etc.
Flash chromatography
High stability long-life and high-intensity deuterium lamps. Using the latest material and process technologies, Noblelight's new lamps combine lifetime more than 2,000 hours with unmatched output stability and intensity over their entire life. This sets them apart from other long-life lamps on the market and makes them the ideal choice for high-end (U) HPLC instruments or UV-Vis spectrophotometer.
Product information
- The "Enhanced Lifetime Performance (ELP)" technology for Noblelight with a high transmissive synthetic quartz envelope, maintain twice the residual intensity compared to standard D2 lamps at the end of life. The patented ELP coating protects the light emitting part against degradation caused by VUV radiation and reactive plasma components.
- See-through versions of all lamps available
See-through lamps offer a straight-line arrangement of a tungsten halogen lamp and a deuterium lamp in an optical system. Simplification and cost reduction of UV-Vis spectrophotometers can be achieved using this approach, for example, by elimination of a moveable mirror or a semi-transmissive beam splitter. See-through lamps offer the same unmatched high stability and are available with the same diversity of heater voltages and aperture sizes.
- Different spectral ranges available:
lamps are available either with UV glass envelope (cutting edge 185 nm) or with high transmissive quartz envelope (cutting edge 160 nm), providing maximum performance depending on your applications or instrument design.
Your advantages
- Less instrument recalibration due to improved intensity maintenance over lifetime
- Better signal to noise ratio
- Shorter sampling time
- Higher throughput
- Highest precision analytical results
- Best price/performance ratio and lowest cost of ownership
Applications areas
- High-pressure liquid chromatography (HPLC)
- UV-Vis spectroscopy
- Atomic absorption spectroscopy (AAS)
- Thin film measurement
- Thin layer chromatography (TLC)
- Laboratory light sources
- Fluorescence spectroscopy
- Pollution monitoring
- Semiconductor inspection
- Removal of electrostatic charges from semiconductor wafers etc.
- Flash chromatography