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Magnetic charge changes orbits and waveforms near regular black holes
Study explores how magnetic charge in regular black holes alters gravitational waveforms from periodic orbits, offering new constraints on black hole properties through gravitational wave.
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Gravitational atom spectroscopy
Gravitational atom spectroscopy reveals how self-gravitating scalar field clouds around black holes produce detectable quasinormal mode frequency shifts in gravitational wave signatures.
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Counter-based experiment reproduces Lorentz time dilation
Lorentz time dilation emerges from pure counting dynamics in binary event streams without spacetime geometry, suggesting relativistic physics is fundamentally informational.
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Ze counting framework yields a Minkowski-like metric
A derivation of Minkowski spacetime geometry from combinatorial dynamics of a binary event counter, with speed of light emerging as structural impedance.
