Wissenschaftlicher Hintergrund

Akerstedt, T. (1985): “Adjustment of physiological circadian rhythms and the sleep-wake cycle to shiftwork”, Hours of work, Wiley

Anderson, J.L., Glod, C.A., Dai, J., Cao, Y, Lockley, S.W. (2009): Lux vs. Wavelength in light treatment of seasonal affective disorder. Acta Psychiatrica Scandinavica 120 (2009), pp. 203-212

Aries, M.B.C., Begemann, S.H.A., Zonneveldt, L., Tenner, A.D. (2002): “Retinal illuminance from vertical daylight openings in office spaces”, Right Light 5, Nice

Barkmann, C., Wessolowski, N., Schulte-Markwort, M. (2012): Applicability and efficacy of variable light in schools. Physiology & Behaviour 105 (2012), pp. 621-627

Baron, R.A., Rea, M.S., Daniels, S.G. (1992): Effects of indoor lighting (illuminence and spectral distribution) on the performance of cognitive tasks and interpersonal behaviors. The potential mediating role of positive affect. Motivation and Emotion 16 (1992), pp. 1-33

Begemann, S.H.A., et al. (1997): “Daylight, artificial light and people in an office environment, overview of visual and biological responses”, International Journal of Industrial Ergonomics

Berson, D.M. (2002): “Melanopsin and phototransduction by retinal ganglion cells”, Fifth International LRO lighting research symposium, Orlando

Berson, D.M., Dunn, F.A., Motoharu Takao (2002): “Phototransduction by retinal ganglion cells that set the circadian clock”, Science, February 8;

BGI 579: 2007-10: Hitzearbeit. Erkennen – beurteilen – schützen. Berufsgenossenschaftliche Information der BG (Hrsg.), Köln, Carl Heymanns Verlag.

BGI 7002: 2007-06: Beurteilung von Hitzearbeit – eine Handlungshilfe für kleine und mittlere Unternehmen. Berufsgenossenschaftliche Information der HVBG (Hrsg.) Köln, Carl Heymanns Verlag.

Bischof, W.; Bullinger-Naber, M.; Kruppa, B.; Schwab, R.; Müller, B. H. (Hrsg.) (2003): Expositionen und gesundheitliche Beeinträchtigungen in Bürogebäuden – Ergebnisse des ProKlimA-Projektes. Fraunhofer IRB Verlag, Stuttgart.

Boulos, Z., et al. (1995): “Light treatment for sleep disorders”, Consensus Report VII Jet lag. Journal of biological rhythms, Vol.10,

Boyce, P.R. (1998): Why daylight? In: Proceedings of Daylighting ´98

Boyce, P.R., et al. (1997): “Lighting the graveyard-shift: the influence of a daylight-simulating skylight on the task performance and mood of night-shift workers”, Lighting Research and Technology

Boyce, P.R. (2003): Human factors in lighting. London, New York: Taylor & Francis 2003

Boyce, P.R. (2004): Lighting research for interiors. The beginning oft he end or the end oft he beginning. Lighting research and Technology 36 (2004), pp. 283-293

Boyce, P.R. (2011): On measuring task performance. Coloration Technology 127 (2011), pp. 124-140

Boyce, P.R. (1973): Age, illuminance, visual performance and preference. Lighting Research and Technology 5 (1973), pp. 125-145

Boyce, P.R., Veitch, J.A., Newsham, G.R., Myer, M., Hunter, C.M. (2003): Lighting quality and office work. A field simulation study 2003

Brainard, G.C. et al. (2001): “Action spectrum for melatonin regulation in humans: Evidence for a novel circadian photoreceptor”, Journal of Neuroscience (2001)

Brainard, G.C. (2002): “Photoreception for regulation of melatonin and the circadian system in humans”, Fifth International LRO lighting research symposium, Orlando

Butler, D.L., Biner, P.M. (1987): Preffered lighting levels: Variability among settings, behaviours and individuals. Environment and Behaviour 19 (1987), pp. 695-721

Bux, K. (2006): Klima am Arbeitsplatz. Stand arbeitswissenschaftlicher Erkenntnisse – Bedarfsanalyse für weitere Forschungen. Bundesanstalt für Arbeitsschutz und Arbeitsmedizin, Forschung Projekt F 1987.

Cajochen, C. (2007): Alerting effects of light. Sleep Medicine Reviews 11 (2007), pp. 453-464

Çakir, A., Çakir, G. (1998): Licht  und  Gesundheit  –  Eine  Untersuchung  zum  Stand  der  Beleuchtungstechnik in deutschen Büros, 3. erweiterte Auflage, ERGONOMIC, Berlin

CIE Publication 29.2 (1986): “Guide on interior lighting”

Clements-Croome, D., et al. (1998): “An assessment of the influence of the indoor environment on the productivity of occupants in offices”, Design, constructions and operations of healthy buildings, ASHRAE

Costa, G., Ghirlanda, G., Minors, D.S., Waterhouse, J.M. (1993): Effect of bright light on tolerance to night work. Scandinavian Journal of Work, Environment & Health 19 (1993), pp. 414-420

Custers, P.J., Kort, Y.A. de, Ijsselsteijn, W.A., Kruiff, M.E. de (2010): Lighting in retail environments. Atmosphere perception in the real world. Lighting Research and Technology 42 (2010), pp. 331-343

Czeisler, C.A., et al. (1999): “Stability, precision and near-24-hour period of the human circadian pacemaker”, Science 284, 2177-2281

Daurat, A., et al. (1993): “Bright light affects alertness and performance rhythms during a 24-hour constant routine”, Physics and behaviour

DIN 5033: Farbmessung

DIN 6169: Farbwiedergabe

DIN EN ISO 7730:2006-05: Ergonomie der thermischen Umgebung – Analytische Bestimmung und Interpretation der thermischen Behaglichkeit durch Berechnung des PMV – und des PPD-Indexes und Kriterien der lokalen thermischen Behaglichkeit (ISO 7730:2005); Deutsche Fassung EN ISO 7730:2005.

DIN EN 15251:2007-08: Eingangsparameter für das Raumklima zur Auslegung und Bewertung der Energieeffizienz von Gebäuden – Raumluftqualität, Temperatur, Licht und Akustik; Deutsche Fassung EN 15251:2007.

Europäische Norm DIN EN 12464-1 (2003): “Beleuchtung von Arbeitsstätten”, (Comité Européen de Normalisation, CEN)

Fanger, P. O., Valbjörn, O. (Hrsg.): Indoor Climate. Kopenhagen: Byggeforksnings-institut.

Fleischer, Krüger, Schierz (2001): Effect of brightness ditribution and light colors on office staff, results of the ‚Lighting Harmony‘ project. Lux Europa. Reykjavik, Iceland

Flynn, J.E., Spencer, T.J., Mrtyniuk, O., Hendrick, C. (1973): Interim study of procedures for investigating the effect of light on impression and behaviour. Journal oft he Illuminating Engineering Society 31 (1973), pp. 87-94

Fortuin, G. J. (1951): “Visual power and visibility”, Philips Research Report 6

Gall, D.; Lapuente, V. (2002): Aspects involving illumination in the selection of an effective lamp spectrum. LICHT 54 (2002) 7–8, 860–871

Garland, C.F., McEligot, A., Shanks, T., Garland, F.C., Gorham, E.D. (1999): Epidemiology and the role of sunlight. In: Holick M.F., Jung, E.G.: Biologic effects of light 1998: Proceedings of a symposium, Basel, Schweiz,1998, Kluver Academic Publishers, Norwell

Giesen, M., Hendrick, C. (1974): Effects of seating distance and room illumination on the affective outcomes of small group interaction. Social Behaviour and Personality 2 (1974), pp. 87-96

Gifford, R., Hine, D.W., Veitch, J.A. (1997): Meta-analysis for environment-behaviour and design research, illuminated with a study of lighting level effects on office task performance. In: Moore, G.T., Marans, R.W.: Advances in environment, behaviour and design. New York: Plenum Press, pp. 223-253

Glickman, G., Hanifin, J.P., Rollag, M.D., Wang, J., Cooper, H., Brainard, G.C. (2003): “Inferior retinal light exposure is more effective than superior retinal exposure in suppressing melatonin in humans”, Journal of biological rhythms

Grunberger, J., et al. (1993): “The effect of biologically-active light on the noopsyche and thymopsyche on psycho-physiological variables in healthy volunteers”, Int. J. of Psychophysiology

Haneda, M.; Tanabe, S.; Nishihara, N.; Nakamura, S. (2008): The combined effects of thermal environment and ventilation rate on productivity. Proceedings Indoor Air 2008, 17-22 August 2008, Copenhagen, Denmark – Paper 108.

Haneda, M.; Wargocki, P.; Dalewski, M.; Tanabe, S. (2009): The effects of thermal discomfort on task performance, fatigue and mental work load examined in a subjective experiment. Proceedings of Healthy Buildings Syracuse 2009, paper 233.

Hardy, J. D.; DuBois, E. F. (1938): Basal metabolism, radiation, convection and vaporization at temperatures of 22 to 35 C. Canad. J. Nutrition 15.

Hart, S. G., Staveland, L. E. (1988): Development of NASA-TLX (Task Load Index): Results of empirical and theoretical research. In: P. A. Hancock and N. Meshkati (Eds.) Human Mental Workload. Amsterdam: North Holland Press.

Hartmann, E. (1970): Beleuchtung und Sehen am Arbeitsplatz: Goldmann Wilhelm GmbH

Hartmann, E. (1977): Optimale Beleuchtung am Arbeitsplatz, Friedrich Kiehl Verlag GmbH, Ludwigshafen/Rh.

Hedge, A.; Erickson, W.A.; Rubin, G. (1991): VDT  use,  job  stress,  job  satisfaction  and  the  sick building syndrome in offices. In: Designing for Everyone, Proceedings of the 11th Congress of the IEA, Taylor and Francis, London

Heschong Mahone Group (2013): Skylighting and retail sales. An investigation into the relationship between daylighting and human performance.

Heschong, L., Wright, R., Okura, S. (2002): Daylighting impacts on human performance in school. Journal oft he Illuminating Engineering Society (2002), pp. 101-114

Holick (1999): Biological effects of light: Historical and new perspectives. In: Holick M.F., Jung, E.G.: Biologic effects of light 1998: Proceedings of a symposium, Basel, Schweiz,1998, Kluver Academic Publishers, Norwell

Hygge, S., Knez, I. (2001): Effects of noise, heat and indoor lighting on cognitive performance and self-reported affect. Journal of Environmental Psychology 21 (2001), pp. 291-299

Iwashita; Tanabe, (2007): Effect of work motivation on the task performance under the different thermal conditions. Proceedings of Clima Helsinki 2007, Vol.1, S. 105-112.

Juslen H.T. (2006): Lighting and productivity in the industrial working place: Proceedings of fifteenth international symposium, Lighting Engineering Society of Slovenia. Lighting of work places. Slovenia, Bled, pp. 53-62

Juslen, H.T., Fassian, M. (2005): Lighting and productivity – Night-shift field study in the industrial environment. Light & Engineering 13 (2005), pp. 59-62

Juslen, H.T., Tenner, A. (2005): Mechanisms involved in enhancing human performance by changing the lighting in the industrial workplace. International Journal of Industrial Ergonomics 35 (2005), pp. 843-855

Juslen, H.T., Wouters, M., Tenner, A. (2007): The influence of controllable task-lighting on productivity. A field study in a factory. Applied Ergonomics 38 (2007), pp. 39-44

Kerkhof, G.A. (1999): “Licht en prestatie”, Proceedings. Symposium Licht en Gezondheid, Amsterdam

Kozakov, R.; Franke, St.; Schöpp, H. (2008): Approach to an effective biological spectrum of a light source. LEUKOS 40 (2008) 4

Knez, I. (2001): Effects of color of light on nonvisual psychological processes. Journal of Environmental Psychology 21 2001), pp. 201-208

Knez, I. (1995): Effects of indoor lighting on mood and cognition. Journal of Environmanetal Psychology 15 (1995), pp 39-51

Knez, I., Enmarker, I. (1998): Effects of office lighting on mood and cognitive performance and a gender effect in work-related judgement. Environment and Behaviour 30 (1998), pp. 553-567

Knez, I., Hygge, S. (2002): Irrelevant speech and indoor lighting. Effects on cognitive performance and self-reported affect. Applied Cognitive Psychology 16 (2002), pp. 709-718

Knez, I., Kers, C. (2000): Effects of indoor lighting, gender and age on mood and cognitive performance. Environment and Behaviour 32 (2000), pp. 817-831

Kretschmer, V., Griefhan, B., Schmidt, K.-H. (2011): Bright light and night work. Effects on selective and divided attention in elderly persons. Lighting Research and Technology 43 (2011), pp. 473-486

Kretschmer, V., Schmidt, K.-H., Griefhan, B. (2011): Bright light effects on working memory, concentration and sustained attention of elderly night shift workers. Lighting Research and Technology (2011), pp. 1-18

Kruithof, A.A. (1941): Tubular luminescence lamps for general illumination. Philips Technical Review 6 (1941), pp. 65-96

Küller, R. (1987): The effects of indoor lighting on well-being and the annual rhythm of hormones. CIE 21st session. Venice 1987, Vol. 1, No. 601, S. 342 345

Küller, R., Ballal, S., Laike, T., Mikellides, B., Tonello, G. (2006): The impact of light and color on psychological mood. A cross-cultural study of indoor work environments. Ergonomics 49 (2006), pp. 1496-1507

Küller, R., Laike, T. (1998): “The impact of flicker from fluorescent lighting on well-being, performance and physiological arousal”, Ergonomics

Küller, R., Wetterberg, L. (1993): “Melatonin, cortisol, EEG, ECG and subjective comfort in healthy humans: impact of two fluorescent lamp types at two light intensities”, Lighting Research and Technology

Lan, L.; Lian, Z.; Pan, L.; Ye, Q. (2009): Neurobehavioral approach for evaluation of office workers’ productivity: The effects of room temperature. Building and Environment 44, 8, pp 1578–1588.

Lan, L.; Lian, Z. (2009): Use of neurobehavioral tests to evaluate the effects of in-door environment quality on productivity. Building and Environment 44, pp 2208-2217.

Lan, L.; Wargocki, P.; Wyon, D.P.; Lian, Z. (2011): Effects of thermal discomfort in an office on perceived air quality, SBS symptoms, physiological responses and human performance. Indoor Air, Article first published online: 18 APR 2011.

Langkilde, G.; Alexandersen, K.; Wyon, D. P.; Fanger, P. O. (1973): Mental performance during slight cool or warm discomfort. Archives des Sciences Physiologiques 27 , A511-A518.

Langkilde, G. (1978): The influence of the thermal environment on office work.

Mai, A. (2008): TEST Energiesparlampen. Keine Leuchten. ÖKO-TEST 10 (2008), 154–169

Münch, M., Linhart, F., Borisuit, A., Jaeggi, S.M., Scartezzini, J.-L. (2012): Effects of prior light exposure on early evening performance, subjective sleepiness, and hormonal secretion. Behavioral Neuroscience 126 (2012), pp. 196-203

Nishihara, N.; Yamamoto, Y.; Tanabe, S. (2002): Effect of thermal environment on productivity evaluated by task performances, fatigue feelings and cerebral blood oxygenation changes. Proceedings of Indoor Air 2002., pp. 828-833.

NSVV Empfehlung (2003): “Licht und Gesundheit für arbeitende Menschen”, ISBN 90-76549-20-6, Haarlem

Osram (1986): Technisch-wissenschaftliche Abhandlungen der Osram-Gesellschaft, Band 12, Springer, Berlin

Partonen, T., et al. (2000): “Bright light improves vitality and alleviates distress in healthy people”, Journal of Affective disorders

Pepler, R. D.; Warner, R. E. (1968): Temperature and learning: an experimental study. ASHRAE Transactions 74, 211-219.

Prechtl, A. (2004): Moderner Brandschutz: Einfluss von normobarer Hypoxie auf arbeitsmedizinisch relevante Aspekte der kognitiven und psychomotorischen Leistungsfähigkeit. Dissertation, München, Ludwig-Maximilians-Universtität, Medizinische Fakultät.

Richter, M. (1981): Einführung in die Farbmetrik. De Gruyter, Berlin

Riemersma van der Lek, R.F., Swaab, D.F., Twisk, J., Hol, E.M., Hoogendijk, W.J.G., van Someren, E.J.W. (2008): Effect of bright light and melatonin on cognitive and noncognitive function in elderly residents of group care facilities. A randomized controlled trials. JAMA: The Journal oft he American Medical Association 299 (2008), pp. 2642-2655

Roche, L., Dewey, E., Littlefair, P. (2000): Occupant reactions to daylight in offices. Lighting Research and Technology 32 (2000), pp. 119-126

Schädlich, S.; Röttger, I.; Lüttgens, S. (2006): Menschliche Behaglichkeit in Innenräumen und deren Einfluss auf die Produktivität am Arbeitsplatz. FIA News, Forschungsbericht des FGK, FGK Nr. 127 11/06.

Schierz, C. (2008): Zur Photometrie nichtvisueller Lichtwirkungen. Berlin 13.-14.03.2008

Scholtz, A. S.; Kotschenreuther, R. (2008): Haushaltslampen. Sicherheit und Austauschbarkeit, Marktzugang und CO 2 -Reduktion. DIN Mitteilungen (2008) 2

Schöpp, H. (2006): Verbundprojekt: Plasma-Lampen für circadiane Rhythmen (PLA-CAR).,public,articledetail_public/view/124/. Plasma News, Newsletter des VDI Technologiezentrum, September

Schwarzl, I.; Lang, E.; Mursch-Radlgruber, E. (2009): Hängen Hitze und Leistungsfähigkeit zusammen? Ein Projekt an der Schnittstelle Wissenschaft und Bildung. (Endbericht zum Projekt StartClim2004.G, Januar 2005). BOKU-Met Report 6, ISSN 1994-4179 (Print), ISSN 1994-4187 (Online).

Smith, S.W., Rea, M.S. (1979): Proofreading under different levels of illumination. Journal of the Illumination Engineering Society 8 (1979), pp. 47-78

Smith, S.W., Rea, M.S. (1982): Performance of reading test under differents levels of illumination. Journal of the Illumination Engineering Society 12 (1982), pp. 29-33

Smolders, K., de Kort, Y., Cluitmans, P. (2012): A higher illuminance induces alertness even during office hours: Findings on subjective measures, task performance and heart rate measures. Physiology & Behaviour, 107, 7-16

Steidle, A., Hanke, E.-V., Werth, L. (2011): Bright logic and creative shots in the dark. Illumination affects thinking styles and cognitive performance: 9th Biennial Conference on Environmental Psychology. Eindhoven, Netherlands, 2011

Steidle, A., Hanke, E.-V., Werth, L. (2013): In the dark we cooperate. The situated nature of precedural embodiment. Social Cognition 31 (2013), pp. 275-300.

Steidle, A., Werth, L., Hanke, E.-V. (2011): You can’t see much in the dark. Darkness affects construal level and psychological distance. Social Psychology 42 (2011), pp. 174-184

Stenzl, A. (1962): Erfahrungen mit 1000 lx in einer Lederwarenfabrik. Lichttechnik 14 (1962a), pp. 16-18

Stevens, R.G., Anderson, L. E. (1999): The  role  of  light  in  breast  cancer.  In:  Holick  M.F.,  Jung, E.G.: Biologic effects of light 1998: Proceedings of a symposium, Basel, Schweiz,1998, Kluver Academic Publishers, Norwell

Stolzenberg, K. (2008): Die Glühlampe aus gesundheitlichen Gründen bewahren, oder ist Tageslicht wirklich am besten für die Gesundheit? LICHT 60 (2008) 4, 376-381

Summers, T.A., Herbert, P.R. (2001): Shedding some light on store atmospherics. Influence of illumination on consumer behavior. Journal of Business Research 54 (2001), pp. 145-150

Tanaka, K., Takahashi, M. Tanaka, M., Takanao, T., Nishinoue, N., Kaku, A., Kato, N., Tagaya, H., Miyaoka, H. (2011): Brief morning exposure to bright light improves subjective symptoms and performance in nurses with rapidly rotating shifts. Journal of Occupational Health 53 (2011), pp. 258-266

Tenner, A.D. (1997): unveröffentlichte Forschungsdaten aus: Begemann, S.H.A., Beld, G.J. van den, Tenner, A.D., “Daylight, artificial light and people in an office environment, overview of visual and biological responses”, International Journal of Industrial Ergonomics, 20 (3), 231-239

Tenner, A.D. (1999): Einfluss der Beleuchtung auf Wohlfühlen und Leistungsfähigkeit, Vortrag bei dem Lichttechnischen Symposium “Physiologische und psychologische Grundlagen der Innenbeleuchtung” an der Universität Karlsruhe am 7. Oktober 1999

Thapan, K.; Arendt, J.; Skene, D. J. (2001): An action spectrum for melatonin suppression: evidence for a novel non-rod, non-cone photoreceptor system in humans. J Physiol-London 535 (2001) 1

Tops, M., et al. (1998): “The effect of the length of continuous presence on the preferred illuminances in offices”, Proceedings CIBSE Conference

Tralau, B., Fröhlich, C., Ejhed, J., Greule, R., Felsch, M. (2012): Attention equivalent: A study on the effectiveness of individual lighting parameters on the perception and preference of customers in a shop. Experiencing Light 2012

Ueki M.; Tanabe S.; Nishihara N.; Haneda M.; Kawamura A.; Nishikawa M. (2007): Effect of moderately hot environment on productivity and fatigue evaluated by subjective experiment of long time exposure, Proceedings of Clima Helsinki 2007, Vol.1, pp. 207-214.

Urlaub, S. (2009): Einflussfaktoren auf die Leistungsfähigkeit bei Büroarbeit. Diplomarbeit. Universität Stuttgart, Lehrstuhl für Bauphysik/Fraunhofer-Institute für Bauphysik Holzkirchen.

Vallenduuk, V. (1999): “The effect of variable lighting on mood and performance in an office environment”, Promotion Technische Universität Eindhoven

van Bommel, W.J.M., van den Beld, G.J. (2004): Lighting for work. A review of visual and biological effects. Lighting Research and Technology 36 (2004), pp. 255-266

van Bommel, W.J.M., van den Beld, G.J., van Ooyen, M.H. F. (2002): “Industrielle Beleuchtung und Produktivität”, Licht 2002-Tagung, Maastricht

van den Beld, G.J. (2002): “Licht und Gesundheit”, Licht 2002-Tagung, Maastricht

van den Beld, G.J. (2002): “Healthy lighting, recommendations for workers”, Symposium healthy lighting at work and at home, Technische Universität Eindhoven

Veitch, J.A. (2001): Lighting quality distributions from biopsychological processes. Journal oft he Illuminating Engineering Society 30 (2001), pp.3-16

Veitch, J.A. (2001): Psychological processes influencing lighting quality. Journal of the Illuminating Engineering Society 30 (1002), pp. 124-140

Veitch, J.A. (2002): “Principles of healthy lighting: highlights of CIE TC 6-11’s forthcoming report”, Fifth International LRO lighting research symposium, Orlando

Veitch, J.A., Gifford, R., Hine, D.W. (1991): Demand characteristics and full spectrum lighting effects on performance and mood. Hournal of Environmental Psychology 11 (1991), pp. 87-95

Veitch, J.A., Newsham, G.R. (1998): Lighting quality and energy efficiency effects on task performace, mood, health, satisfaction and comfort. Journal oft he Illuminating Engineering Society 27 (1998), pp. 107-129

Veitch, J.A., Newsham, G.R., Boyce, P.R., Jones, C.C. (2008): Lighting appraisal, well-being and performance in open-plan offices. A linked mechanisms approach. Lighting Research & Technology 40 (2008), pp. 133-151

Veitch, J.A., Stokkermans, M.G.M., Newsham, G.R. (2013): Linking Lighting Appraisals to Work Behaviours. Environment and Behaviour 45 (2013), pp. 198-214

Wargocki, P. (1998): Human Perception, Productivity and Symptoms Related to Indoor Air Quality. PhD thesis, Technical University of Denmark.

Wargocki, P.; Dalewski, M.; Haneda, M. (2009): Physiological effects of thermal environment on office work. Proceedings of Healthy Buildings Syracuse 2009, paper 104.

Wilhelm, B., Weckerle, P., Durst, W., Fahr, C., Röck, R. (2011): Increased illuminance at the workplace: Does it have advantages for daytime shifts? Lighting Research & Technology 43 (2011), pp. 185-199

Wilkens, A .J., Nimmo-Smith, I., Slater, A., Bedocs, L. (1989): “Fluorescent lighting, headaches and eyestrain”, Lighting Research and Technology

Willem, H. C.; Tham, K. W. (2005): Some effects of air temperature on skin temperature, thermal sensation and mental performance of tropically acclimatized subjects. Proceedings Indoor Air Beijing 2005, 1, pp 383-388.

Winslow, C. E. A.; Herrington, L. P. (1949): Temperature and human life. Princeton University Press, Princeton.

Wunsch, A (2007).: Glühlampenlicht und Gesundheit. LICHT 59 (2007) 11/12, 2–10

Wyszecki, G.; Stiles, W. S. (1982): Color Science. Concepts and Methods, Quantitative Data and Formulae. 2. Aufl. New York: John Wiley & Sons, Inc.

Zhong, C.-B., Bohns, V.K., Gino, F. (2010): Good lamps are the best police. Darkness increases dishonesty and self-interested bahaviour. Psychological Science 21 (2010), pp. 311-314