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    Home»Physics»Orchestrating Light: Precise Control of Photonic Angular Momentum
    Physics

    Orchestrating Light: Precise Control of Photonic Angular Momentum

    By SPIE--International Society for Optics and PhotonicsOctober 25, 2023No Comments3 Mins Read
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    Precise Control of Photonic Angular Momentum Art Concept
    Beijing Institute of Technology researchers have developed a photonic TAM manipulator that efficiently harnesses photon angular momentum, opening new avenues in data transmission, encryption, and quantum signal processing.

    New technique accomplishes efficient recognition and real-time control of angular momentum modes.

    Rotating objects carry angular momentum; this fact extends even to the tiniest of particles, such as photons. Photons possess not one but two distinct forms of angular momentum: spin angular momentum (SAM) and orbital angular momentum (OAM). SAM dances between two eigenvalues, representing right and left circular polarizations, while OAM has infinite eigenvalues, corresponding to the spiral phase. When SAM unites with OAM, we witness the advent of “total angular momentum” (TAM), a photonic toolbox with vast applications spanning lidar, laser processing, optical communication, optical computing, quantum information, and more.

    Challenges in TAM Recognition and Control

    Just as OAM revolutionized the field, efficient recognition and real-time control of TAM modes offer keys for groundbreaking TAM applications. Yet existing methods for recognizing photon TAM states have limitations, including restricted dynamic range, low recognition accuracy, and an inability to adapt filtering on the fly. These constraints limit the progress of TAM development and application. Extraction of desired TAM modes from a photon beam has remained an unsolved puzzle until now.

    Total Angular Momentum Manipulator Conceptual Structure
    Conceptual structure of total angular momentum manipulator: a light beam carrying multiple angular momentum modes passes through the manipulator for filtering. Credit: Li et al., doi 10.1117/1.AP.5.5.056002.

    As reported in Advanced Photonics, researchers from Beijing Institute of Technology have developed a photonic TAM manipulator that eliminates barriers, accomplishing on-demand manipulation of both SAM and OAM. Their approach involves the symmetrical cascading of two analogous units: the TAM separator and TAM reverser. These units, composed of specialized optical elements known as unwrappers and correctors, are designed through a meticulous process.

    Picture the photonic TAM manipulator as a conductor leading an orchestra of light. The TAM separator transforms the incoming beam into an ensemble of spatially arranged stripes, each representing a TAM mode. A spatial filter takes the stage, determines which TAM modes to keep and which to block. Finally, the TAM reverser brings back the separated beams to the spatial domain, completing the symphony. This transformative process maps the incident beam from the spatial domain to the “position-TAM domain” for easy filtering before conversion to the spatial domain.

    Precise Control of Photonic Angular Momentum
    Performance of the system in straight-through and selective-blocking cases when multi-TAM states are incident. (a) Experimental results for incident beams; (b) TAM spectra of the output beams in the above two cases. The output patterns are consistent with the inputs at the straight-through cases. For the selective-blocking cases, the spatial filter placed at the separation plane is presented as Sp2. After blocking, the patterns of these beams convert from a petaloid shape into a doughnut shape. Credit: Li et al., doi 10.1117/1.AP.5.5.056002.

    Research Outcomes and Implications

    The researchers report experimental demonstration supporting the recognition of up to 42 individual TAM modes. The results illustrate good TAM state selection performance, which makes it particularly attractive for high-speed large-capacity data transmission and high-security photonic encryption systems. It also offers new perspectives on high-fidelity photonic computation and the processing of quantum radar signals.

    Reference: “Photon total angular momentum manipulation” by Lang Li, Yingchi Guo, Zhichao Zhang, Zijun Shang, Chen Li, Jiaqi Wang, Liliang Gao, Lan Hai, Chunqing Gao and Shiyao Fu, 30 August 2023, Advanced Photonics.
    DOI: 10.1117/1.AP.5.5.056002

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