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Generation and decomposition of scalar and vector modes carrying orbital angular momentum: a review

Srinivas PachavaIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduRaghu DharmavarapuIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduVijayakumar AnandIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduSruthy JayakumarIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduAmogh ManthalkarIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduAwakash DixitIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduNirmal K. ViswanathanUniversity of Hyderabad, School of Physics, Hyderabad, TelanganaBalaji SrinivasanIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil NaduShanti BhattacharyaIndian Institute of Technology Madras, Department of Electrical Engineering, Chennai, Tamil Nadu
2019en
ABI

Аннотация

Orbital angular momentum (OAM), one of the most recently discovered degrees of freedom of light beam field has fundamentally revolutionized optical physics and its technological capabilities. Optical beams with OAM have enabled a large variety of applications, including super-resolution imaging, optical trapping, classical and quantum optical communication, and quantum computing, to mention a few. To enable these and several other emerging applications, optical beams with OAM have been generated using a variety of methods and technologies, such as a simple astigmatic lens pair, one-/two-dimensional holographic optical elements, three-dimensional spiral phase plates, optical fibers, and recent entrants such as metasurfaces. All these techniques achieve spatial light modulation and can be implemented with either passive elements or active devices, such as liquid crystal on silicon and digital micromirror devices. Many of these devices and technologies are not only used for the generation of amplitude phase-polarization structured light beams but are also capable of analyzing them. We have attempted to encompass a wide variety of such technologies as well as a few emerging methodologies, broadly categorized into generation and detection protocols. We address the needs of scientists and engineers who desire to generate/detect OAM modes and are looking for the technique (active or passive) best suited for their application.

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