Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia, M Kumar, R Kumar - Sensors, 2024 - da.lib.kobe-u.ac.jp
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia, M Kumar, R Kumar - Sensors, 2024 - ui.adsabs.harvard.edu
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia, M Kumar, R Kumar - Sensors (Basel …, 2024 - pubmed.ncbi.nlm.nih.gov
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror.
L Pensia, M Kumar, R Kumar - Sensors (14248220), 2024 - search.ebscohost.com
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia - Sensors, 2024 - cir.nii.ac.jp
抄録 Digital holography (DH) is an important method for three-dimensional (3D) imaging
since it allows for the recording and reconstruction of an object's amplitude and phase …
since it allows for the recording and reconstruction of an object's amplitude and phase …
[HTML][HTML] Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia, M Kumar, R Kumar - Sensors (Basel, Switzerland), 2024 - ncbi.nlm.nih.gov
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Double Field of View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia, R Kumar - Available at SSRN 4460322 - papers.ssrn.com
Holography provides the ability to record and reconstruct the amplitude and phase
information about an object. Consequently, it is a vital technique for three-dimensional …
information about an object. Consequently, it is a vital technique for three-dimensional …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror
L Pensia, M Kumar, R Kumar - Sensors (Basel, Switzerland), 2024 - europepmc.org
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …
Dual Field-of-View Off-Axis Spatially Multiplexed Digital Holography Using Fresnel's Bi-Mirror.
L Pensia, M Kumar, R Kumar - Sensors (Basel, Switzerland), 2024 - europepmc.org
Digital holography (DH) is an important method for three-dimensional (3D) imaging since it
allows for the recording and reconstruction of an object's amplitude and phase information …
allows for the recording and reconstruction of an object's amplitude and phase information …