arXiv:2507.19916v1 Announce Type: new
Abstract: We report the first direct mapping of the local density of states (LDOS) in a photonic time crystal (PTC), capturing its evolution from the analogues of spontaneous emission enhancement to thresholded lasing. The PTC is implemented with an array of time-periodically modulated LC resonators at microwave frequencies. Broadband white noise probes the system and reveals an LDOS lineshape that decomposes into absorptive and dispersive Lorentzian components near the momentum gap frequency. The finite peak amplitude, which grows with modulation strength, shows that the spontaneous emission rate is maximized at the gap frequency. All observed features agree with classical non-Hermitian Floquet theory. When modulation-induced gain exceeds losses, the PTC transitions to a narrow-band lasing oscillation state. These findings open a route to nonequilibrium photonics and bring time-periodic LDOS engineering closer to practical realization.