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$\mathbb{T}$-operator bounds on angle-integrated absorption and thermal radiation for arbitrary objects

We derive fundamental per-channel bounds on angle-integrated absorption and thermal radiation for arbitrary bodies---for any given material susceptibility and bounding region---that simultaneously encode both the per-volume limit on polarization set by passivity and geometric constraints on radiative efficiencies set by finite object sizes through the scattering $\mathbb{T}$-operator. We then analyze these bounds in two practical settings, comparing against prior limits as well as near optimal structures discovered through topology optimization. Principally, we show that the bounds properly capture the physically observed transition from the volume scaling of absorptivity seen in deeply subwavelength objects (nanoparticle radius or thin film thickness) to the area scaling of absorptivity seen in ray optics (blackbody limits).

preprint2020arXivOpen access
Sean MoleskyWeiliang JinPrashanth S. VenkataramAlejandro W. Rodriguez
physics.optics
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Sean MoleskyWeiliang JinPrashanth S. VenkataramAlejandro W. Rodriguez

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