Search results for "Ghost imaging"

showing 8 items of 8 documents

Hyperspectral terahertz microscopy via nonlinear ghost imaging

2020

Ghost imaging, based on single-pixel detection and multiple pattern illumination, is a crucial investigative tool in difficult-to-access wavelength regions. In the terahertz domain, where high-resolution imagers are mostly unavailable, ghost imaging is an optimal approach to embed the temporal dimension, creating a “hyperspectral” imager. In this framework, high resolution is mostly out of reach. Hence, it is particularly critical to developing practical approaches for microscopy. Here we experimentally demonstrate time-resolved nonlinear ghost imaging, a technique based on near-field, optical-to-terahertz nonlinear conversion and detection of illumination patterns. We show how space–time c…

Physics - Instrumentation and DetectorsComputer scienceTerahertz radiationFOS: Physical sciences02 engineering and technologyGhost imaging01 natural sciences010309 opticssymbols.namesakeOptics0103 physical sciencesMicroscopyCouplingbusiness.industryQC0454.T47Hyperspectral imagingInstrumentation and Detectors (physics.ins-det)QC0446.2021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsQC0350Electronic Optical and Magnetic MaterialsNonlinear systemWavelengthFourier transformComputer Science::Computer Vision and Pattern Recognitionsymbols0210 nano-technologybusinessOptics (physics.optics)Physics - Optics
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Random angular coding for superresolved imaging.

2010

In this paper, we present a new approach capable of working under coherent and incoherent illumination for achieving superresolution by random coding of the object's angular information. By placing two static random masks in optically conjugate planes inside an aperture-limited imaging setup, one may obtain a transmitted image containing spatial resolution higher than the one obtained without the masks. As the most noticeable fact, the superresolution effect is obtained without imposing any restrictions either in the time domain or in the field-of-view domain but rather only in the dynamic range of the camera device. Experimental verifications for the proposed technique with incoherent illu…

PhysicsPoint spread functionbusiness.industryDynamic rangeMaterials Science (miscellaneous)Aperture synthesisGhost imagingIndustrial and Manufacturing EngineeringNumerical aperturesymbols.namesakeOpticsFourier transformsymbolsTime domainBusiness and International ManagementbusinessImage resolutionApplied optics
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Wavelength-multiplexed computational temporal ghost imaging

2017

Ghost imaging is a novel imaging technique based on correlation measurements between a structured illumination pattern (the reference) and the total intensity transmitted or reflected by an object [1]. The reference illumination patterns may be either randomly generated by a spatially incoherent light source, or pre-programmed e.g. with a spatial light modulator. Light transmitted (or reflected) by the object is measured by a single-pixel “bucket” detector with null spatial resolution. A unique feature associated with ghost imaging is that (i) neither the bucket detector nor the reference measurement caries enough information to retrieve the object shape and (ii) it is insensitive to distor…

PhysicsSpatial light modulatorNull (radio)business.industryDetector02 engineering and technologyGhost imaging021001 nanoscience & nanotechnology01 natural sciences010309 opticsWavelengthOpticsFeature (computer vision)Temporal resolution0103 physical sciences0210 nano-technologybusinessImage resolution2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)
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Temporal ghost imaging with photon pairs

2017

International audience; We present an experiment of temporal ghost imaging based on the spatial properties of twin photons. The retrieval of a binary time signal of 8 bits is performed with an error rate of 0.70%.

Physics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]Photonbusiness.industryComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONTime signalBinary numberImage processing02 engineering and technologyGhost imagingQuantum imaging021001 nanoscience & nanotechnology01 natural sciencesGeneralLiterature_MISCELLANEOUS010309 opticsOpticsSpontaneous parametric down-conversionTemporal resolution0103 physical sciences0210 nano-technologybusiness
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Full field of view super-resolution imaging based on two static gratings and white light illumination.

2008

The usage of two static gratings for obtaining super-resolved imaging dates back to the work by Bachl and Lukosz in 1967. However, in their approach a severe reduction in the field of view was the necessary condition for improving the resolution. We present an approach based on two static gratings without sacrificing the field of view. The key idea for not paying with the field of view is to use white light illumination to average the ghost images obtained outside the region of interest since the positions of those images are wavelength dependent. Moreover, large magnification is achieved by using a commercial microscope objective instead of a test system with a unity magnification as prese…

Physicsbusiness.industryMaterials Science (miscellaneous)Fourier opticsMagnificationField of viewGhost imagingGratingIndustrial and Manufacturing EngineeringOpticsRegion of interestBusiness and International ManagementbusinessDiffraction gratingImage resolutionApplied optics
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2019

We demonstrate experimentally ghost optical coherence tomography using a broadband incoherent supercontinuum light source with shot-to-shot random spectral fluctuations. The technique is based on ghost imaging in the spectral domain where the object is the spectral interference pattern generated from an optical coherence tomography interferometer in which a physical sample is placed. The axial profile of the sample is obtained from the Fourier transform of the correlation between the spectrally resolved intensity fluctuations of the supercontinuum and the integrated signal measured at the output of the interferometer. The results are in excellent agreement with measurements obtained from a …

Physicsmedicine.medical_specialtymedicine.diagnostic_testbusiness.industryPhysics::Optics02 engineering and technologyGhost imaging021001 nanoscience & nanotechnology01 natural sciencesSignalAtomic and Molecular Physics and OpticsSupercontinuumSpectral imaging010309 opticssymbols.namesakeInterferometryOpticsFourier transformOptical coherence tomography0103 physical sciencesBroadbandmedicinesymbols0210 nano-technologybusinessOptics Express
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Optical encryption with compressive ghost imaging

2011

Ghost imaging (GI) is a novel technique where the optical information of an object is encoded in the correlation of the intensity fluctuations of a light source. Computational GI (CGI) is a variant of the standard procedure that uses a single bucket detector. Recently, we proposed to use CGI to encrypt and transmit the object information to a remote party [1]. The optical encryption scheme shows compressibility and robustness to eavesdropping attacks. The reconstruction algorithm provides a relative low quality images and requires high acquisitions times. A procedure to overcome such limitations is to combine CGI with compressive sampling (CS), an advanced signal processing theory that expl…

Signal processingLight intensityCompressed sensingbusiness.industryComputer scienceComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONImage processingReconstruction algorithmIterative reconstructionGhost imagingEncryptionbusinessAlgorithm2011 Conference on Lasers and Electro-Optics Europe and 12th European Quantum Electronics Conference (CLEO EUROPE/EQEC)
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Supercontinuum spectral-domain ghost imaging

2018

International audience; Ghost imaging is a technique that generates high-resolution images by correlating the intensity of two light beams, neither of which independently contains useful information about the shape of the object. Ghost imaging has been demonstrated in both the spatial and temporal domains, using incoherent classical light sources or entangled photon pairs. Here we exploit the recent progress in ultrafast real-time measurement techniques to demonstrate ultrafast, scan-free, ghost imaging in the frequency domain using a continuous spectrum from an incoherent supercontinuum light source with random spectral fluctuations. We demonstrate the application of this technique to broa…

[PHYS.PHYS.PHYS-OPTICS] Physics [physics]/Physics [physics]/Optics [physics.optics]Physics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]Photonbusiness.industryGhost imaging01 natural sciencesAtomic and Molecular Physics and OpticsSupercontinuum010309 opticsFour-wave mixingLight intensityOpticsFrequency domain0103 physical sciencesLight beam010306 general physicsbusinessUltrashort pulseOptics Letters
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