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Arendt, J. (2012). Biological rhythms during residence in polar regions. Chronobiol Int, 29(4), 379–394.
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Boivin, D. B., Boudreau, P., James, F. O., & Kin, N. M. K. N. Y. (2012). Photic resetting in night-shift work: impact on nurses' sleep. Chronobiol Int, 29(5), 619–628.
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Brainard, G. C., Sliney, D., Hanifin, J. P., Glickman, G., Byrne, B., Greeson, J. M., et al. (2008). Sensitivity of the human circadian system to short-wavelength (420-nm) light. J Biol Rhythms, 23(5), 379–386.
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Bullough, J. D., Rea, M. S., & Figueiro, M. G. (2006). Of mice and women: light as a circadian stimulus in breast cancer research. Cancer Causes Control, 17(4), 375–383.
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Cajochen, C., Jud, C., Munch, M., Kobialka, S., Wirz-Justice, A., & Albrecht, U. (2006). Evening exposure to blue light stimulates the expression of the clock gene PER2 in humans. Eur J Neurosci, 23(4), 1082–1086.
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Czeisler, C. A. (2013). Perspective: casting light on sleep deficiency. Nature, 497(7450), S13.
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Hofstra, W. A., & de Weerd, A. W. (2008). How to assess circadian rhythm in humans: a review of literature. Epilepsy Behav, 13(3), 438–444.
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Lerchl, A., Schindler, C., Eichhorn, K., Kley, F., & Erren, T. C. (2009). Indirect blue light does not suppress nocturnal salivary melatonin in humans in an automobile setting. J Pineal Res, 47(2), 143–146.
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Lowden, A., & Akerstedt, T. (2012). Assessment of a new dynamic light regimen in a nuclear power control room without windows on quickly rotating shiftworkers--effects on health, wakefulness, and circadian alignment: a pilot study. Chronobiol Int, 29(5), 641–649.
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Moser, M., Schaumberger, K., Schernhammer, E., & Stevens, R. G. (2006). Cancer and rhythm. Cancer Causes Control, 17(4), 483–487.
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