Photon-sorting nanopixels for multispectral & polarisation-resolved imaging. Recent years have seen staggering growth in the prevalence of digital cameras. Conventional digital cameras are designed to mimic the response of the human eye, and therefore record the intensities of three spectral channels: red, green and blue (RGB). This project aims to harness recent advances in nano-optics for the realisation of a new generation of digital cameras. Rather than performing simple colour (RGB) imaging ....Photon-sorting nanopixels for multispectral & polarisation-resolved imaging. Recent years have seen staggering growth in the prevalence of digital cameras. Conventional digital cameras are designed to mimic the response of the human eye, and therefore record the intensities of three spectral channels: red, green and blue (RGB). This project aims to harness recent advances in nano-optics for the realisation of a new generation of digital cameras. Rather than performing simple colour (RGB) imaging, these will be capable of multispectral and polarisation-resolved imaging, whose richer information will be beneficial for applications from medical diagnostics to industrial quality control. These capabilities will be enabled by optical nanostructures that deflect light in a wavelength- and polarisation-dependent manner.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100125
Funder
Australian Research Council
Funding Amount
$837,000.00
Summary
National Facility for Infrared Technologies. This project aims to establish a national facility for infrared (IR) technologies. The facility will include advanced imaging and spectroscopy facilities as well as unique tools for wafer-scale mapping of IR materials and devices. Combined, the facility will enable new diagnostic capabilities of supersonic combustion processes, aid establishment of wavelength agile integrated photonic chips and provide non-destructive quantitative electro-optical char ....National Facility for Infrared Technologies. This project aims to establish a national facility for infrared (IR) technologies. The facility will include advanced imaging and spectroscopy facilities as well as unique tools for wafer-scale mapping of IR materials and devices. Combined, the facility will enable new diagnostic capabilities of supersonic combustion processes, aid establishment of wavelength agile integrated photonic chips and provide non-destructive quantitative electro-optical characterisation of IR materials and devices. Establishment of these state-of-the-art capabilities across Australia will have clear benefits in fundamental sciences such as astronomy and quantum information as well as key industry branches in defence, aerospace, communications and security.Read moreRead less
Ultra-fast serialised all optical image processing: addressing the electronic bottleneck in the world's fastest camera. Serial time encoded amplified microscopy can capture over a million frames per second. At this rate, a megapixel image would fill a terabyte hard disk in a second. We will use photonics to condense and manipulated the video stream so that only the important features are 'seen', making it practical to process and store on a computer.