AQD_ottawa
New member
I stay unbiased here as we distribute both but this fact above is wholly wrong, I would defend Ecotech both passionately and equally. Correct info on such threads must be unbiased as well as informative which is paramount.
The spectal graphs show very similar patterns within the outer UV ranges. However neither go below 400nm which is where the true invisible UV spectrum starts.
Below graphs courtesy of Dr Sanjay Joshi.
Pro
Mitras
True UV starts below 400nm neither lamp goes into this area, however both benefit from the higher side of the scale, same as T5 lamps. GHL use the term Hyper Violet, I guess just to be market different.
There is enough component of both lamps equally as well as other brands to state UV as the UV spectrum tales off in the lower sector of 400+nm
Reference
Ultraviolet (UV) light is electromagnetic radiation with a wavelength shorter than that of visible light, but longer than X-rays, that is, in the range between 400 nm and 10 nm, corresponding to photon energies from 3 eV to 124 eV. It is so-named because the spectrum consists of electromagnetic waves with frequencies higher than those that humans identify as the color violet. These frequencies are invisible to humans, but near UV is visible to a number of insects and birds.
UV light is found in sunlight and is emitted by electric arcs and specialized lights such as mercury lamps and black lights. It can cause chemical reactions, and causes many substances to glow or fluoresce. A large fraction of UV, including all that reaches the surface of the Earth, is classified as non-ionizing radiation. The higher energies of the ultraviolet spectrum from wavelengths about 10 nm to 120 nm ('extreme' ultraviolet) are ionizing, but due to this effect, these wavelengths are absorbed by nitrogen and even more strongly by dioxygen, and thus have an extremely short path length through air.[1] However, the entire spectrum of ultraviolet radiation has some of the biological features of ionizing radiation, in doing far more damage to many molecules in biological systems than is accounted for by simple heating effects (an example is sunburn). These properties derive from the ultraviolet photon's power to alter chemical bonds in molecules, even without having enough energy to ionize atoms.
Electric arcs produce UV light, and arc welders must wear eye protection to prevent welder's flash.
Although ultraviolet radiation is invisible to the human eye, most people are aware of the effects of UV on the skin, called suntan and sunburn. Short-wavelength and mid-wavelength UV can cause much damage to living organisms, such that life on Earth outside of the deep oceans is possible only because the atmosphere, primarily the ozone layer, filters out nearly all short-wavelength and most mid-range UV.[2] A small amount of near-ultraviolet reaches the surface and does not cause sunburn, but is still capable of causing long-term skin damage and cancer. A smaller amount of UV reaches the surface and is responsible for sunburn and also the formation of vitamin D in organisms that make this vitamin (including humans). The UV spectrum thus has many effects, both beneficial and damaging, to human health.
The spectal graphs show very similar patterns within the outer UV ranges. However neither go below 400nm which is where the true invisible UV spectrum starts.
Below graphs courtesy of Dr Sanjay Joshi.
Pro
Mitras
True UV starts below 400nm neither lamp goes into this area, however both benefit from the higher side of the scale, same as T5 lamps. GHL use the term Hyper Violet, I guess just to be market different.
There is enough component of both lamps equally as well as other brands to state UV as the UV spectrum tales off in the lower sector of 400+nm
Reference
Ultraviolet (UV) light is electromagnetic radiation with a wavelength shorter than that of visible light, but longer than X-rays, that is, in the range between 400 nm and 10 nm, corresponding to photon energies from 3 eV to 124 eV. It is so-named because the spectrum consists of electromagnetic waves with frequencies higher than those that humans identify as the color violet. These frequencies are invisible to humans, but near UV is visible to a number of insects and birds.
UV light is found in sunlight and is emitted by electric arcs and specialized lights such as mercury lamps and black lights. It can cause chemical reactions, and causes many substances to glow or fluoresce. A large fraction of UV, including all that reaches the surface of the Earth, is classified as non-ionizing radiation. The higher energies of the ultraviolet spectrum from wavelengths about 10 nm to 120 nm ('extreme' ultraviolet) are ionizing, but due to this effect, these wavelengths are absorbed by nitrogen and even more strongly by dioxygen, and thus have an extremely short path length through air.[1] However, the entire spectrum of ultraviolet radiation has some of the biological features of ionizing radiation, in doing far more damage to many molecules in biological systems than is accounted for by simple heating effects (an example is sunburn). These properties derive from the ultraviolet photon's power to alter chemical bonds in molecules, even without having enough energy to ionize atoms.
Electric arcs produce UV light, and arc welders must wear eye protection to prevent welder's flash.
Although ultraviolet radiation is invisible to the human eye, most people are aware of the effects of UV on the skin, called suntan and sunburn. Short-wavelength and mid-wavelength UV can cause much damage to living organisms, such that life on Earth outside of the deep oceans is possible only because the atmosphere, primarily the ozone layer, filters out nearly all short-wavelength and most mid-range UV.[2] A small amount of near-ultraviolet reaches the surface and does not cause sunburn, but is still capable of causing long-term skin damage and cancer. A smaller amount of UV reaches the surface and is responsible for sunburn and also the formation of vitamin D in organisms that make this vitamin (including humans). The UV spectrum thus has many effects, both beneficial and damaging, to human health.
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