Im sure there will be a slight decrease in production. Also from what Ive read, from some. Halide, will bring out more/different expressions vs LED, because of the wider spectrum.
And while Im far from any kind of expert, from what I can see, spectrum wise, no LED is even close to having as broad of a spectrum, and also the UVB/A bands. The LED Infrared/UVA/B, are very very narrow band, vs the spectrum of the HID. 280nm-2000nm+
From published spectrum graphs, the Hortilux Blue, MMS, and most any Halide, has a good deal of power in both the Infra-red, and UVA/B. Especially IR. These bulbs go all the way up to 2000+nm. And down to 280nm, for UVB, and everything else above that. Though to be honest, I dont think they are as efficient as a dedicated UVA/B bulb, like a Solacure Flower Power bulb. But, they for sure do emit some a good deal. It takes a very special type of glass, to Efficiently Emit a 280nm spectrum, and not get absorbed.. And the glass, is expensive. UVA/B, does not like to be reflected, and any UVA/B that goes towards a reflector, will be absorbed, and not reflected. The Solacure bulb, has some kind of special phosphorus coating, Inside the bulb, is used for reflection, vs using any type of standard Fluroescent type fixture/reflector. Solacure is also T12, and has a HUGE bulb, for a Fluro, but will fit most any standard fluro fixture. It can also run from 25w-100w. We run ours at 40w-45w. On 15 minutes, off 45. 2 for each 4 x 4 area, and 1000w HID, and about 24 inches. Sometimes a good bit closer, but also reduce the watts of the Solacure bulbs to 32w. Be it Hortilux 1000w HPS, 1150w DE Gavita, or Hortilux Blue. But with the DE, we run at 45w, and 36in-40in from canopy, and 30 minutes on, 30 minutes off.. DE HPS Gavita 1150w, have huge Infrared. And will fry plants, if any closer than 36in.
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