The Panopticon device -- an integrated Paul-trap-hemispherical mirror system for quantum optics

We present the design and construction of a new experimental apparatus in which a single Ba$^+$ ion is trapped in the center of curvature of an optical-quality hemispherical mirror. We describe the layout, fabrication and integration of the full setup, consisting of a high-optical access monolithic ``3D-printed'' Paul trap, the hemispherical mirror, a diffraction-limited in-vacuum lens (NA=0.7) for collection of atomic fluorescence and a state-of-the art UHV vessel. This new apparatus enables the study of quantum electrodynamics effects such as strong inhibition and enhancement of spontaneous emission, and also increases the collection efficiency of the emitted light in a single optical mode up to 38\%.