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Using Extraordinary Optical Transmission to Quantify Cardiac Biomarkers in Human Serum
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Extraordinary spin density and energy back-flow under interference.

Zhen-Lai Wang, Dan-Dan Lian, Xiang-Song Chen

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    This summary is machine-generated.

    Local optical spin density can unexpectedly oppose integrated spin orientation, even with identical plane wave polarizations. Interference effects also reveal transverse spin and orbital angular momentum, offering new insights into light-matter interactions.

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    Area of Science:

    • * Electromagnetism and Optics
    • * Quantum Mechanics and Spin Physics

    Background:

    • * Previous studies suggested "local optical spin density" based on the Poynting vector could oppose integrated spin orientation.
    • * The gauge-invariant canonical expression was thought to avoid this counter-intuitive behavior.

    Purpose of the Study:

    • * To investigate the behavior of "local optical spin density" in the gauge-invariant canonical expression under plane wave interference.
    • * To explore the emergence of transverse spin density and its relation to polarization.
    • * To analyze the local behavior of the Poynting vector, including back-flow and vortices.

    Main Methods:

    • * Theoretical analysis of optical spin density using gauge-invariant canonical expressions.
    • * Examination of interference patterns of plane waves with identical polarization states.
    • * Investigation of the Poynting vector's local characteristics.

    Main Results:

    • * Demonstrated that even the gauge-invariant canonical expression for "local optical spin density" can counter-intuitively oppose integrated spin orientation during plane wave interference.
    • * Identified the generation of transverse spin density in interference fields, showing a controllable relationship with polarization.
    • * Observed local Poynting vector back-flow and circular motion (vortices), indicating transverse local orbital angular momentum density.

    Conclusions:

    • * The counter-intuitive opposition between local and integrated spin densities is a more general phenomenon than previously thought.
    • * Interference fields can exhibit transverse spin and orbital angular momentum, providing new avenues for controlling light polarization.
    • * Findings contribute to a deeper understanding of spin and angular momentum dynamics in optical fields.