Add to ORKGManagement of fluorescent lights is recommended to (1) maintain uniformity of light intensity over time and (2) permit reproducibility of lighting conditions during experimental replications. At the McGill Phytotron, the lighting intensity can be controlled to desired level because any individual pair of the 40 lamps in each chamber can be set to be 'on' at any particular time. A lamp canopy service history is maintained for each experiment permitting accurate replication of lighting conditions for subsequent replicate trials
Background/Rationale: Facility lighting is seldom systematically analyzed, and as a result is often ...
The fluorescent lamp, a new light-source which is called the "ideal light", was experimentally compa...
Fluorescent lamps are the most widely used artificial light source today, responsible for approximat...
Fluorescent and High Intensity Discharge lamps have opened up great opportunities for researchers to...
Six methods used to minimize excess energy effects associated with lighting systems for plant growth...
A how-to guide on how to retrofit fluorescent lamp growth chambers with ceramic metal halide lamps
At the Odessa Phytotron we have installed over 50 climatic chambers and cabinets made by various com...
When considering the replacement of incandescent lamps by screwbase integrated compact fluorescent l...
Lighting is a central and critical aspect of control in environmental research for plant research an...
Lighting is a central and critical aspect of control in environmental research for plant research an...
Traditional lighting systems are often realized to manage the on-off intensity of all luminaries in ...
This article is focused on considerations based on experimental studies concerning changes of select...
Some of the important areas of the lighting energy conservation research program currently being car...
In modern and high-technology society, power quality has been a major concern. In the past, incandes...
Electronic dimming of high-intensity discharge lamps offers control of Photosynthetic Photon Flux (P...
Background/Rationale: Facility lighting is seldom systematically analyzed, and as a result is often ...
The fluorescent lamp, a new light-source which is called the "ideal light", was experimentally compa...
Fluorescent lamps are the most widely used artificial light source today, responsible for approximat...
Fluorescent and High Intensity Discharge lamps have opened up great opportunities for researchers to...
Six methods used to minimize excess energy effects associated with lighting systems for plant growth...
A how-to guide on how to retrofit fluorescent lamp growth chambers with ceramic metal halide lamps
At the Odessa Phytotron we have installed over 50 climatic chambers and cabinets made by various com...
When considering the replacement of incandescent lamps by screwbase integrated compact fluorescent l...
Lighting is a central and critical aspect of control in environmental research for plant research an...
Lighting is a central and critical aspect of control in environmental research for plant research an...
Traditional lighting systems are often realized to manage the on-off intensity of all luminaries in ...
This article is focused on considerations based on experimental studies concerning changes of select...
Some of the important areas of the lighting energy conservation research program currently being car...
In modern and high-technology society, power quality has been a major concern. In the past, incandes...
Electronic dimming of high-intensity discharge lamps offers control of Photosynthetic Photon Flux (P...
Background/Rationale: Facility lighting is seldom systematically analyzed, and as a result is often ...
The fluorescent lamp, a new light-source which is called the "ideal light", was experimentally compa...
Fluorescent lamps are the most widely used artificial light source today, responsible for approximat...