Thesis
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Prime Numbers in Black Holes? Zeta Structures, Primitive Cycles, and a Possible FBA Perspective
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4 min read
Abstract Recent popular science reports have suggested that “prime number patterns” might appear inside black holes. However, what lies behind this formulation is typically not a direct connection to the Riemann zeta function itself, but a deeper structural mechanism: primitive cycles in dynamical systems naturally generate zeta products whose zeros encode resonances or spectral fluctuations.…
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In the Spektrum podcast on warm inflation (discussed since 1995), the focus is on a new PRL/preprint model (2025) that contrasts the standard assumption of cold inflation (near-vacuum during inflation, reheating afterwards) with a sustained thermal bath throughout the inflationary phase. This shifts the emphasis: not only how fast space expands, but whether particle production/dissipation…
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Superconductivity as a Null-Test Regime: Is There an Entropy Residual Beyond the Heat Balance?
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6 min read
In the microscopic theory of superconductivity by Bardeen, Cooper & Schrieffer (1957), an energy gap leads to strongly suppressed dissipative quasiparticle contributions at low temperatures, enabling a very low-loss reference mode of operation. Josephson (1962) predicts, for tunnel junctions, a lossless DC supercurrent up to a critical limit as well as a dissipative voltage state…