Photo Gallery

The impact of dysprosium halide additives on a mercury arc

The picture above show how the aspect of a high-pressure mercury arc (5 mm at 30 bars) changes upon the addition of dysprosium halides. The hot plasma core shrinks due to radiative cooling of the plasma (more energy is being converted into light, which affects the plasma's thermal balance), while a reddish mantle appears as a result of the formation of dysprosium monohalide molecules at lower temperatures. While the latter species are instrumental in the color improvement of the emitted light, the resulting mantle causes color segregation in projected light beams. It is for this reason that artificial daylight lamps heavily dosed with such additive, such as the standard Osram HMI and Philips MSR, are used primarily in floodlighting applications. Short-arc light sources intended for projection applications use different fill chemistries that mitigate that problem while increasing the arc's brightness. The drawbacks, however, are that lumen efficacy and color quality are not as good.


Keywords: Lamps

The impact of dysprosium halide additives on a mercury arc


The picture above show how the aspect of a high-pressure mercury arc (5 mm at 30 bars) changes upon the addition of dysprosium halides. The hot plasma core shrinks due to radiative cooling of the plasma (more energy is being converted into light, which affects the plasma's thermal balance), while a reddish mantle appears as a result of the formation of dysprosium monohalide molecules at lower temperatures. While the latter species are instrumental in the color improvement of the emitted light, the resulting mantle causes color segregation in projected light beams. It is for this reason that artificial daylight lamps heavily dosed with such additive, such as the standard Osram HMI and Philips MSR, are used primarily in floodlighting applications. Short-arc light sources intended for projection applications use different fill chemistries that mitigate that problem while increasing the arc's brightness. The drawbacks, however, are that lumen efficacy and color quality are not as good.

Ar-Cd.jpg DSC06542.JPG Mercury_vs_dysprosium.jpg 20181022_154836.jpg 2-kW-mercs.jpg
Lamp/Fixture Information
Manufacturer:Philips
Lamp
Lamp Type:Mercury (left) and metal halide (right) short arc
Filament/Radiator Type:Highly loaded arc in mercury vapor (left), and in dysprosium halide vapors (right)
File information
Filename:Mercury_vs_dysprosium.jpg
Album name:Max / Lamps
Keywords:Lamps
Filesize:89 KiB
Date added:Aug 10, 2024
Dimensions:533 x 281 pixels
Displayed:8 times
URL:https://trad-lighting.net/gallery/displayimage.php?pid=198
Favorites:Add to Favorites

Comment 1 to 3 of 3
Page: 1

Ria   [Aug 10, 2024 at 07:10 PM]
Fascinating as always, Max. We are so glad to have you on the site Bulb Man
Max   [Aug 10, 2024 at 07:11 PM]
Thank you for having me here.
Ria   [Aug 10, 2024 at 07:13 PM]
You're more than welcome Smile

Comment 1 to 3 of 3
Page: 1