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This Week at Physics

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Event Number 4697

  Thursday, May 31st, 2018

R. G. Herb Condensed Matter Seminar
Ultra-compact, multi-functional photonics via nanofabrication & computation
Time: 10:00 am
Place: 5310 Chamberlin
Speaker: Rajesh Menon, University of Utah
Abstract: Micro- and nanostructures have recently been widely applied to enhance the performance of optical components and systems. Structures whose characteristic dimensions are greater than the wavelength of interest,  can effectively manipulate the scalar properties of light, while nanostructures with dimensions <<  can manipulate the vector properties of light. Computational techniques, such as nonlinear optimization, coupled with electromagnetics modeling can drive the designs of novel optical and photonic components and systems. When guided by manufacturing constraints, such techniques can result in highly practical, low-cost, ultra-compact (on the order of x) and multi-functional integrated-photonics components, such as polarization beam-splitters,1 wavelength splitters,2 couplers,3, waveguide bends,4 etc. We’ll also describe a nanophotonic cloak that enables two devices to be placed closer together than is otherwise feasible, leading to an increase in integration density.5 Applying these techniques at the microscale (>  regime) has resulted in flat super-achromatic lenses,6 planar spectrum-splitting solar concentrators,7 and ultra-high efficiency displays.
We can recognize the functions enabled by optics and photonics as a form of information manipulation, enabling highly non-intuitive forms of optical systems such as photography with no lenses or microscopy with only a surgical needle8 or multi-spectral imaging with a diffractive element.9

References:
1. B. Shen, et al., Nat. Photon. 9, 378 (2015).
2. A. Y. Piggott, et al., Nat. Photon. 9, 374 (2015).
3. B. Shen, et al., Opt. Exp. 22(22) 27175 (2014).
4. B. Shen, et al., Opt. Lett. 40(24) 5750 (2015).
5. B. Shen, et al., Nat. Commun. 7, 13126 (2016).
6. P. Wang, et al., Sci. Rep. 6, 21545 (2016).
7. P. Wang, et al., Prog. Photovolt. 23(9) 1073 (2015).
8. G. Kim, et al., Appl. Phys. Lett. 106, 261111 (2015).
9. P. Wang and R. Menon, Optica, 2(11) 933 (2015).

Host: Brar/Kats
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