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Free, publicly-accessible full text available November 1, 2024
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Panuski, Christopher L. ; Christen, Ian ; Minkov, Momchil ; Brabec, Cole J. ; Trajtenberg-Mills, Sivan ; Griffiths, Alexander D. ; McKendry, Jonathan J. ; Leake, Gerald L. ; Coleman, Daniel J. ; Tran, Cung ; et al ( , Nature Photonics)
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van Niekerk, Matthew ; Jahani, Saman ; Bickford, Justin ; Cho, Pak ; Anderson, Stephen ; Leake, Gerald ; Coleman, Daniel ; Fanto, Michael L. ; Tison, Christopher C. ; Howland, Gregory A. ; et al ( , Journal of the Optical Society of America B)
Extreme skin depth engineering (
e-skid ) can be applied to integrated photonics to manipulate the evanescent field of a waveguide. Here we demonstrate thate-skid can be implemented in two directions in order to deterministically engineer the evanescent wave allowing for dense integration with enhanced functionalities. In particular, by increasing the skin depth, we enable the creation of two-dimensional (2D)e-skid directional couplers with large gaps and operational bandwidth. Here we experimentally validate 2De-skid for integrated photonics in a complementary metal–oxide semiconductor (CMOS) photonics foundry and demonstrate strong coupling with a gap of 1.44 µm. -
Preble, Stefan F. ; Fanto, Michael L. ; Steidle, Jeffrey A. ; Tison, Christopher C. ; Howland, Gregory A. ; Wang, Zihao ; Alsing, Paul M. ( , Physical Review Applied)
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Wang, Zihao ; Fanto, Michael L. ; Steidle, Jeffrey A. ; Aboketaf, Abdelsalam A. ; Rummage, Nathan A. ; Thomas, Paul M. ; Lee, Chi-Sen ; Guo, Wei ; Lester, Luke F. ; Preble, Stefan F. ( , Applied Physics Letters)