Prof Miles Padgett (OBE, FRS) from blue-sky research to real-world applications and challenges
Ruidong Xia, Ying Hu

TL;DR
This paper discusses the career and contributions of Professor Miles Padgett in advancing orbital angular momentum research and its real-world applications.
Contribution
Highlights Padgett's pioneering work in OAM and its practical implementations, including optical tweezers and quantum communication.
Findings
OAM can carry more information than SAM, enabling high-capacity data transmission.
Padgett's optical spanner allows spinning micron-sized objects using light.
Collaborations with industry partners help translate academic research into real-world impact.
Abstract
Orbital angular momentum (OAM) research has evolved from a theoretical concept to a tool with diverse applications. Early advancements distinguished OAM from spin angular momentum (SAM), leading to practical innovations such as optical tweezers and quantum entanglement. Compared with SAM, OAM can carry more information, which makes it invaluable for high-capacity data transmission and secure communications. Professor Miles Padgett, a leading scientist in the field of optical momentum, is well-known for his contributions, including the realization of an optical spanner for spinning micron-sized objects, the use of orbital angular momentum to increase the data capacity for communication systems, and the development of an angular form of the Einstein‒Podolky‒Rosen (EPR) quantum paradox. In an enlightening conversation with Light: Science & Applications, he highlighted the fundamental…
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Taxonomy
TopicsOrbital Angular Momentum in Optics · Optical Wireless Communication Technologies
