AI Article Synopsis

  • * ScAlN is particularly intriguing for nanophotonic applications due to its large bandgap suitable for blue wavelengths and its potential for enhanced nonlinear optical characteristics.
  • * The study examines ScAlN's Pockels effect, showing that while its electro-optic coupling is initially weak, it can be significantly improved with higher scandium doping, potentially outperforming lithium niobate in certain applications.

Article Abstract

Nitride ferroelectrics have recently emerged as promising alternatives to oxide ferroelectrics due to their compatibility with mainstream semiconductor processing. ScAlN, in particular, has exhibited remarkable piezoelectric coupling strength (K) comparable to that of lithium niobate, making it a valuable choice for RF filters in wireless communications. Recently, ScAlN has sparked interest in its use for nanophotonic devices, chiefly due to its large bandgap facilitating operation in blue wavelengths coupled with promises of enhanced nonlinear optical properties such as a large second-order susceptibility (χ). It is still an open question whether ScAlN can outperform oxide ferroelectrics concerning the Pockels effect-an electro-optic coupling extensively utilized in optical communications devices. In this paper, we present a comprehensive theoretical analysis and experimental demonstration of ScAlN's Pockels effect. Our findings reveal that the electro-optic coupling of ScAlN, despite being weak at low Sc concentration, may be significantly enhanced and exceed LiNbO at high levels of Sc doping, which points the direction of continued research efforts to unlock the full potential of ScAlN.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11535382PMC
http://dx.doi.org/10.1038/s41467-024-53895-xDOI Listing

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