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BiOBr nanoflakes with strong Kerr nonlinearity towards hybrid integrated photonic devices

Journal Article


Abstract


  • © 2020 SPIE. As a new group of advanced 2D layered materials, bismuth oxyhalides, i.e., BiOX (X = Cl, Br, I), have recently become of great interest. In this work, we characterize the third-order optical nonlinearities of BiOBr, an important member of the BiOX family. The nonlinear absorption and Kerr nonlinearity of BiOBr nanoflakes at both 800 nm and 1550 nm are characterized via the Z-Scan technique. Experimental results show that BiOBr nanoflakes exhibit a large nonlinear absorption coefficient β ∼ 10-7 m/W as well as a large Kerr coefficient n2 ∼ 10-14 m2/W. We also note that the n2 of BiOBr reverses sign from negative to positive as the wavelength is changed from 800 nm to 1550 nm. We further characterize the thickness-dependent nonlinear optical properties of BiOBr nanoflakes, finding that the magnitudes of β and n2 increase with decreasing thickness of the BiOBr nanoflakes. Finally, we integrate BiOBr nanoflakes into silicon integrated waveguides and measure their insertion loss, with the extracted waveguide propagation loss showing good agreement with mode simulations based on ellipsometry measurements. These results confirm the strong potential of BiOBr as a promising nonlinear optical material for high-performance hybrid integrated photonic devices.

UOW Authors


  •   Jia, Linnan (external author)
  •   Cui, Dandan (external author)
  •   Wu, Jiayang (external author)
  •   Feng, Haifeng (external author)
  •   Yang, Yunyi (external author)
  •   Yang, Tieshan (external author)
  •   Qu, Yang (external author)
  •   Du, Yi
  •   Hao, Weichang (external author)
  •   Jia, Baohua (external author)
  •   Moss, David (external author)

Publication Date


  • 2020

Citation


  • Jia, L., Cui, D., Wu, J., Feng, H., Yang, Y., Yang, T., Qu, Y., Du, Y., Hao, W., Jia, B. & Moss, D. (2020). BiOBr nanoflakes with strong Kerr nonlinearity towards hybrid integrated photonic devices. Proceedings of SPIE - The International Society for Optical Engineering, 11282

Scopus Eid


  • 2-s2.0-85083324491

Volume


  • 11282

Place Of Publication


  • United States

Abstract


  • © 2020 SPIE. As a new group of advanced 2D layered materials, bismuth oxyhalides, i.e., BiOX (X = Cl, Br, I), have recently become of great interest. In this work, we characterize the third-order optical nonlinearities of BiOBr, an important member of the BiOX family. The nonlinear absorption and Kerr nonlinearity of BiOBr nanoflakes at both 800 nm and 1550 nm are characterized via the Z-Scan technique. Experimental results show that BiOBr nanoflakes exhibit a large nonlinear absorption coefficient β ∼ 10-7 m/W as well as a large Kerr coefficient n2 ∼ 10-14 m2/W. We also note that the n2 of BiOBr reverses sign from negative to positive as the wavelength is changed from 800 nm to 1550 nm. We further characterize the thickness-dependent nonlinear optical properties of BiOBr nanoflakes, finding that the magnitudes of β and n2 increase with decreasing thickness of the BiOBr nanoflakes. Finally, we integrate BiOBr nanoflakes into silicon integrated waveguides and measure their insertion loss, with the extracted waveguide propagation loss showing good agreement with mode simulations based on ellipsometry measurements. These results confirm the strong potential of BiOBr as a promising nonlinear optical material for high-performance hybrid integrated photonic devices.

UOW Authors


  •   Jia, Linnan (external author)
  •   Cui, Dandan (external author)
  •   Wu, Jiayang (external author)
  •   Feng, Haifeng (external author)
  •   Yang, Yunyi (external author)
  •   Yang, Tieshan (external author)
  •   Qu, Yang (external author)
  •   Du, Yi
  •   Hao, Weichang (external author)
  •   Jia, Baohua (external author)
  •   Moss, David (external author)

Publication Date


  • 2020

Citation


  • Jia, L., Cui, D., Wu, J., Feng, H., Yang, Y., Yang, T., Qu, Y., Du, Y., Hao, W., Jia, B. & Moss, D. (2020). BiOBr nanoflakes with strong Kerr nonlinearity towards hybrid integrated photonic devices. Proceedings of SPIE - The International Society for Optical Engineering, 11282

Scopus Eid


  • 2-s2.0-85083324491

Volume


  • 11282

Place Of Publication


  • United States