Spectral imaging is a fundamental diagnostic technique with widespread application. Conventional spectral imaging approaches have intrinsic limitations on spatial and spectral resolutions due to the physical components they rely on. To overcome these physical limitations, in this paper, we develop a novel multi-spectral imaging modality that enables higher spatial and spectral resolutions. In the developed computational imaging modality, we exploit a diffractive lens, such as a photon sieve, for both dispersing and focusing the optical field, and achieve measurement diversity by changing the focusing behavior of this lens. Because the focal length of a diffractive lens is wavelength-dependent, each measurement is a superposition of differen...
We develop a novel snapshot multi-spectral imaging modality using a generalized photon sieve. The sp...
Seeing beyond the capability of the human eye is an appealing concept, as it allows us to explore ne...
We demonstrate a resolution of 45 nm with a sample size down to 3 μm × 3R...
IEEESpectral imaging is a fundamental diagnostic technique with widespread application. Conventional...
Photon sieves, modifications of Fresnel zone plates, are a new class of diffractive image forming de...
A photon sieve is a modification of a Fresnel zone plate in which open zones are replaced by a large...
In this thesis, we develop a class of novel spectral imaging techniques that enable capabilities bey...
Spectral imaging, the simultaneous imaging and spectroscopy of a radiating scene, is an important di...
A photon sieve is a modification of a Fresnel zone plate in which open zones are replaced by a large...
We develop a fast computational spectral imaging modality that utilizes a single programmable diffra...
Spectral imaging is a fundamental diagnostic technique for the study of the solar coronal plasma, an...
Spectral imaging, the sensing of spatial information as a function of wavelength, is a widely used d...
Traditional snapshot hyperspectral imaging systems include various optical elements: a dispersive op...
The photon sieve is a diffractive optical element similar to a Fresnel zone plate, however instead o...
Diffractive optical elements (DOEs) have been studied extensively in optics for decades, but have re...
We develop a novel snapshot multi-spectral imaging modality using a generalized photon sieve. The sp...
Seeing beyond the capability of the human eye is an appealing concept, as it allows us to explore ne...
We demonstrate a resolution of 45 nm with a sample size down to 3 μm × 3R...
IEEESpectral imaging is a fundamental diagnostic technique with widespread application. Conventional...
Photon sieves, modifications of Fresnel zone plates, are a new class of diffractive image forming de...
A photon sieve is a modification of a Fresnel zone plate in which open zones are replaced by a large...
In this thesis, we develop a class of novel spectral imaging techniques that enable capabilities bey...
Spectral imaging, the simultaneous imaging and spectroscopy of a radiating scene, is an important di...
A photon sieve is a modification of a Fresnel zone plate in which open zones are replaced by a large...
We develop a fast computational spectral imaging modality that utilizes a single programmable diffra...
Spectral imaging is a fundamental diagnostic technique for the study of the solar coronal plasma, an...
Spectral imaging, the sensing of spatial information as a function of wavelength, is a widely used d...
Traditional snapshot hyperspectral imaging systems include various optical elements: a dispersive op...
The photon sieve is a diffractive optical element similar to a Fresnel zone plate, however instead o...
Diffractive optical elements (DOEs) have been studied extensively in optics for decades, but have re...
We develop a novel snapshot multi-spectral imaging modality using a generalized photon sieve. The sp...
Seeing beyond the capability of the human eye is an appealing concept, as it allows us to explore ne...
We demonstrate a resolution of 45 nm with a sample size down to 3 μm × 3R...