Tags - (5) nano-optics

Department(s)/lab(s): Physics (Cavendish Laboratory) | NanoPhotonics Centre @ Cambridge
Summary:

Baumberg directs the NanoPhotonics Centre, confining light into sub-nanometre plasmonic 'picocavities' between metal nanostructures to achieve single-molecule-sensitive SERS and study light-matter coupling at the molecular scale. Current work spans low-cost healthcare biosensors, chiral nanophotonics and quantum coherent effects in plasmonic cavities.

Department(s)/lab(s): Physics | Nanophotonics and Metamaterials Group (Maier) @ Imperial
Summary:

Maier's group works on nanophotonics and plasmonics, including metasurfaces, 2D-material photonics and plasmon-enhanced sensing, exploiting sub-wavelength light confinement for sensing and light-matter interaction applications.

Department(s)/lab(s): School of Physics | Nanophotonics and Electromagnetic Materials Group @ USyd
Summary:

Palomba works on nonlinear nanophotonics and plasmonics: exploiting the extreme field confinement of metallic and hybrid nanostructures to obtain efficient frequency conversion, second- and third-harmonic generation and four-wave mixing in device footprints far smaller than conventional nonlinear optics allows, and integrating these with silicon photonics. The applications the group targets include on-chip nonclassical light generation and nanoscale sensing. Positioned against the established body of NV-ensemble quantum sensing work — DEER, nanoscale NMR and T1 relaxometry protocols operating at pT/sqrt(Hz) field sensitivity — the plasmonic field-enhancement physics is the same toolkit used to build the nanoantennas that raise photon collection from single NV centres and thereby move single-defect sensing toward the pT/sqrt(Hz) performance of ensembles. Borderline inclusion; the group is device-centred, which cuts against the stated preference.

Department(s)/lab(s): School of Physics | Roberts Optics and Meta-Optics Group @ UMelb
Summary:

Roberts leads Melbourne's optics group and is a chief investigator in the ARC Centre of Excellence for Transformative Meta-Optical Systems (TMOS). The work is about extracting information that conventional intensity imaging discards: metasurface-encoded point spread functions that recover the full polarisation state or quantitative phase in a single shot, subwavelength structures for edge enhancement and optical computing, and vectorial beam shaping. For a quantum-sensing candidate the relevant hook is that meta-optics is becoming the standard way to miniaturise the optical front end of NV, atomic-vapour and single-molecule sensors, and to add orientational sensitivity to imaging. Positioned against the established body of NV-ensemble quantum sensing work — DEER, nanoscale NMR and T1 relaxometry protocols operating at pT/sqrt(Hz) field sensitivity — her metasurface collection optics and polarisation-resolved detection schemes are being applied to improve photon collection efficiency and orientational discrimination in exactly the NV-ensemble geometries used for pT/sqrt(Hz) magnetometry. Preferred attribute present: orientation-resolved methods that push past standard resolution limits.

Department(s)/lab(s): Physics | Photonics and Complex Media Group (Sapienza) @ Imperial
Summary:

Sapienza studies light propagation and control in complex/disordered nanophotonic media, using wavefront shaping and transmission-matrix approaches to focus and image through scattering media, with applications to deep-tissue fluorescence imaging and nanophotonic light sources.