From computation to black holes and space-time foam
Abstract
We show that quantum mechanics and general relativity limit the speed of a simple computer (such as a black hole) and its memory space I to 2 I-1 tP-2, where tP is the Planck time. We also show that the life-time of a simple clock and its precision are similarly limited. These bounds and the holographic bound originate from the same physics that governs the quantum fluctuations of space-time. We further show that these physical bounds are realized for black holes, yielding the correct Hawking black hole lifetime, and that space-time undergoes much larger quantum fluctuations than conventional wisdom claims -- almost within range of detection with modern gravitational-wave interferometers.
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