State-of-the-art materials used in MEMS micromirror arrays for photonic applications
S Liu, P Kästner, R Donatiello, A Shrivastava… - Photonics, 2024 - mdpi.com
This work provides an overview on micromirror arrays based on different material systems
such as dielectrics, element silicon, compound semiconductors, metals, and novel 2D …
such as dielectrics, element silicon, compound semiconductors, metals, and novel 2D …
Quantum Wire Coupled to Light
Experimental advances in cavity QED are raising the prospect of using light to probe
quantum materials beyond the linear response regime. The capability to access quantum …
quantum materials beyond the linear response regime. The capability to access quantum …
Chiral quantum optics: recent developments, and future directions
Chiral quantum optics is a growing field of research where light-matter interactions become
asymmetrically dependent on momentum and spin, offering novel control over photonic and …
asymmetrically dependent on momentum and spin, offering novel control over photonic and …
Cavity Induced Topology in Graphene
Strongly coupling materials to cavity modes can affect their electronic properties altering the
phases of matter. We study a setup where graphene electrons are coupled to chiral photons …
phases of matter. We study a setup where graphene electrons are coupled to chiral photons …
[PDF][PDF] Quantum Semiconductor Structures Dressed with Terahertz Cavity Photons
F Tay - 2024 - repository.rice.edu
Recent years have witnessed significant advances in the field of condensed matter cavity
quantum electrodynamics (cQED). A variety of solid-state cQED systems have been …
quantum electrodynamics (cQED). A variety of solid-state cQED systems have been …