Giant single-step upconversion via sub–35-fs phonon dynamics in the nonlinear optical regime
Jingjing Yao, Yahui Li, Xiaguang Zhang, Heyuan Liu, Ming Xia, Chong Hu, Qiu Wang, Jun Yi, Jeongmin Kim, Hailong Chen, Enzheng Shi, Xiaoze Liu

TL;DR
Researchers discovered a new way to achieve giant upconversion using ultrafast phonon dynamics in perovskites, which could improve optical technologies.
Contribution
The study reveals a giant single-step upconversion process enabled by sub–35-fs phonon dynamics in perovskites.
Findings
A giant single-step upconversion of ~200 milli–electron volts was observed via sub–35-femtosecond phonon dynamics.
The process achieves energy eight times room-temperature thermal energy and integrates into the nonlinear optical regime.
Unique electron-phonon coupling leads to Raman anisotropy and strong nonlinearity signatures.
Abstract
Phonon-assisted upconversion (UC) for anti-Stokes photoluminescence stands as a fundamental and widely studied process, central to both ultrafast electron-phonon coupling physics and diverse photonic applications. However, the ultrafast dynamics limit of UC has yet to be addressed, preventing its integration into the nonlinear optical regime. Here, we find a giant single-step UC of ~200 milli–electron volts via sub–35-femtosecond phonon dynamics in two-dimensional hybrid organic-inorganic perovskites in the nonlinear regime. The single-step UC approaches the phonon dynamics limit of ~23 femtoseconds and gains energy about eight times the room-temperature thermal energy (~25 milli–electron volts), enabling its synergistic integration into the nonlinear regime. Benefiting from the unique electron-phonon coupling between organic vibrations and excitons in inorganic lattices, the UC…
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Taxonomy
TopicsOptical properties and cooling technologies in crystalline materials · Perovskite Materials and Applications · Strong Light-Matter Interactions
