With the rapid growth of computing and display technologies, digital holography (DH) has undergone significant advancement in the past two decades. Contemporary research works have enabled holography, a technology which is originally intended for displaying three-dimensional (3-D) images, to be deployed in numerous scientific, engineering, and bio-medical applications. Notably, digital holography has been incorporated into quite a number of contemporary applications, such as, but limited to holographic cryptography, optical metrology, remote sensing and inspection, and more recently, quantum computing. The success attained with DH so far does not limit its development to its current state-of-the-art, but rather research on holography keeps on expanding, with new ideas and methods keep coming up in a sustainable manner.
This Research Topic aims to collect representative works from experts in the field, with the aim of providing an insight on the overall picture on digital holography, as well as reporting existing methodologies and emerging technologies that are likely to have strong impact on future research directions. Participating in the Research Topic, either as authors or readers, also facilitates establishing a platform for researchers to network, and to share their knowledge.
Topics of interest include, but are not limited to:
• Applications of Deep Learning and Convolutional Neural Network in Holography
• Code Aperture Correlation Holography (COACH)
• Computer Generated Holography
• Compressive Holography
• Digital Holographic Microscopy
• Digital Incoherent holography
• Fresnel Incoherent Correlation Holography (FINCH)
• High Speed Hardware and Software in Digital Holography
• Hologram Visualization and Printing Systems
• Holographic Display and Projection Technologies
• Holographic and Optical Cryptography
• Holographic Quantum Computing
• Holographic Remote Sensing and Inspection
• Metasurface hologram: Design and Fabrication
• Numerical and Optical Reconstruction of Hologram
• Optical Scanning Holography (OSH)
• Processing of Digital Holographic Signals.
With the rapid growth of computing and display technologies, digital holography (DH) has undergone significant advancement in the past two decades. Contemporary research works have enabled holography, a technology which is originally intended for displaying three-dimensional (3-D) images, to be deployed in numerous scientific, engineering, and bio-medical applications. Notably, digital holography has been incorporated into quite a number of contemporary applications, such as, but limited to holographic cryptography, optical metrology, remote sensing and inspection, and more recently, quantum computing. The success attained with DH so far does not limit its development to its current state-of-the-art, but rather research on holography keeps on expanding, with new ideas and methods keep coming up in a sustainable manner.
This Research Topic aims to collect representative works from experts in the field, with the aim of providing an insight on the overall picture on digital holography, as well as reporting existing methodologies and emerging technologies that are likely to have strong impact on future research directions. Participating in the Research Topic, either as authors or readers, also facilitates establishing a platform for researchers to network, and to share their knowledge.
Topics of interest include, but are not limited to:
• Applications of Deep Learning and Convolutional Neural Network in Holography
• Code Aperture Correlation Holography (COACH)
• Computer Generated Holography
• Compressive Holography
• Digital Holographic Microscopy
• Digital Incoherent holography
• Fresnel Incoherent Correlation Holography (FINCH)
• High Speed Hardware and Software in Digital Holography
• Hologram Visualization and Printing Systems
• Holographic Display and Projection Technologies
• Holographic and Optical Cryptography
• Holographic Quantum Computing
• Holographic Remote Sensing and Inspection
• Metasurface hologram: Design and Fabrication
• Numerical and Optical Reconstruction of Hologram
• Optical Scanning Holography (OSH)
• Processing of Digital Holographic Signals.