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arxiv: 2501.10434 · v1 · pith:VOFIXBDJ · submitted 2025-01-12 · cond-mat.mes-hall · cond-mat.other· gr-qc· quant-ph

Realization of tilted Dirac-like microwave cone in superconducting circuit lattices

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classification cond-mat.mes-hall cond-mat.othergr-qcquant-ph
keywords banddirac-likecrossingslatticesmicrowavetiltcircuitcone
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Dirac-like band crossings are paradigms in condensed matter systems to emulate high-energy physics phenomena. They are associated with two aspects: gap and tilting. The ability to design sign-changing gap gives rise to band topology, whereas the tilting of band crossings which is a gateway for large gravity-like effects remains uncharted. In this work, we introduce an experimental platform to realize tilted Dirac-like microwave cone in large-scale superconducting circuit lattices. The direction and magnitude of the tilt can be controlled by engineering the axially preferred second neighbor coupling. We demonstrate three lattices with 731-site LC resonator featuring tilt values of up to 59% of relative difference in the opposite-direction group velocities. This is obtained by reconstructing the density of states (DOS) of measured microwave resonance frequencies. Harnessing the tilt of Dirac-like band crossings lays the foundation for weaving the fabric of an emergent solid-state spacetime.

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