Abstract
The alternation of sleep and wakefulness is a major determinant of the structure and quality of life. The sleep–wake cycle is regulated by a fine-tuned balance between two physiological processes: sleep homeostasis, which measures sleep debt, and circadian rhythmicity, which determines the optimal internal (biological) time for sleep and wakefulness. Sleep homeostasis and circadian rhythmicity together influence many aspects of sleep, such as the time it takes to fall asleep, the timing of awakening and the interruptions of sleep, as well as the duration of rapid-eye-movement sleep, slow-wave sleep, and specific brainwaves during sleep, such as sleep spindles. Alterations in the balance between sleep homeostasis and circadian rhythmicity contribute to sleep phenotypes such as morningness–eveningness and short–long sleepers as well as sleep disturbances. Emerging insights into the environmental, behavioral, physiological, neurochemical, and molecular-genetic determinants of sleep homeostasis and circadian rhythmicity provide new avenues for the understanding and improvement of the sleep–wake cycle.