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Photometry is the metrology of light-optical radiation seen by the human eye due to its action on retinal photoreceptors. Its origins are closely tied to the International Commission on Illumination (CIE), which remains responsible for photometry standards and the language of light used in science and technology. When in 1931 it had become possible to model the response to light of the human eye based on reliable spectroradiometry data, the CIE published standard formulae for predicting the luminance of a stimulus. These and related colorimetry formulae are still in use, having been internationally agreed and adopted. Both fields continue to be the subject of active research and increasing accuracy. CIE S 026:2018 represents another milestone for the metrology of light (CIE, 2018a). It is the first standard where light is considered for its ability to evoke circadian and neurophysiological responses, and includes the spectral sensitivity of melanopsin-a retinal photopigment discovered, and shown to be contributing to and influencing responses from human intrinsically-photosensitive retinal ganglion cells (ipRGCs), only 20 years ago (Berson et al., 2002; Hattar et al., 2002; Provencio et al., 1998). These accessory visual functions also depend to some extent on inputs from the rods and three types of cones; until very recently, rods and cones (or "classical photoreceptors") were the only photoreceptors in visual models. If photometry standards are replaced with modern physiological data, consistent changes should be expected in the photometry of these accessory functions. This chapter outlines the current standards, their definitions and calculations, and how the main elements are related.

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RESUMEN

Exposure to light has short- and long-term impacts on non-visual responses in humans. While many aspects related to non-visual light sensitivity have been characterised (such as the action spectrum for melatonin suppression), much remains to be elucidated. Here, we provide a set of minimum reporting guidelines for reporting the stimulus conditions involving light as an intervention in chronobiology, sleep research and environmental psychology experiments. Corresponding to the current state-of-the-art knowledge (June 2019), these are (i) measure and report the spectral power distribution of the acute stimulus from the observer's point of view; (ii) measure and report the spectral power distribution of the background light environment from the observer's point of view; (iii), make spectra available in tabulated form, (iv) report α-opic (ir)radiances and illuminance; (v) describe the timing properties of stimulus (duration and pattern); (vi) describe the spatial properties of stimulus (spatial arrangement and extent), and (vii) report measurement conditions and equipment. We supplement the minimum reporting guidelines with optional reporting suggestions and discuss limitations of the reporting scheme.

RESUMEN

BACKGROUND: Light exposure can cascade numerous effects on the human circadian process via the non-imaging forming system, whose spectral relevance is highest in the short-wavelength range. Here we investigated if commercially available compact fluorescent lamps with different colour temperatures can impact on alertness and cognitive performance. METHODS: Sixteen healthy young men were studied in a balanced cross-over design with light exposure of 3 different light settings (compact fluorescent lamps with light of 40 lux at 6500K and at 2500K and incandescent lamps of 40 lux at 3000K) during 2 h in the evening. RESULTS: Exposure to light at 6500K induced greater melatonin suppression, together with enhanced subjective alertness, well-being and visual comfort. With respect to cognitive performance, light at 6500K led to significantly faster reaction times in tasks associated with sustained attention (Psychomotor Vigilance and GO/NOGO Task), but not in tasks associated with executive function (Paced Visual Serial Addition Task). This cognitive improvement was strongly related with attenuated salivary melatonin levels, particularly for the light condition at 6500K. CONCLUSIONS: Our findings suggest that the sensitivity of the human alerting and cognitive response to polychromatic light at levels as low as 40 lux, is blue-shifted relative to the three-cone visual photopic system. Thus, the selection of commercially available compact fluorescent lights with different colour temperatures significantly impacts on circadian physiology and cognitive performance at home and in the workplace.

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