Litcius/Paper detail

Generalized Wilson loop method for nonlinear light-matter interaction

Hua Wang, Xiuyu Tang, Haowei Xu, Ju Li, Xiaofeng Qian

2022npj Quantum Materials33 citationsDOIOpen Access PDF

Abstract

Abstract Nonlinear light–matter interaction, as the core of ultrafast optics, bulk photovoltaics, nonlinear optical sensing and imaging, and efficient generation of entangled photons, has been traditionally studied by first-principles theoretical methods with the sum-over-states approach. However, this indirect method often suffers from the divergence at band degeneracy and optical zeros as well as convergence issues and high computation costs when summing over the states. Here, using shift vector and shift current conductivity tensor as an example, we present a gauge-invariant generalized approach for efficient and direct calculations of nonlinear optical responses by representing interband Berry curvature, quantum metric, and shift vector in a generalized Wilson loop. This generalized Wilson loop method avoids the above cumbersome challenges and allows for easy implementation and efficient calculations. More importantly, the Wilson loop representation provides a succinct geometric interpretation of nonlinear optical processes and responses based on quantum geometric tensors and quantum geometric potentials and can be readily applied to studying other excited-state responses.

Topics & Concepts

PhysicsNonlinear systemPhotonBerry connection and curvatureQuantumQuantum mechanicsTopology (electrical circuits)Theoretical physicsMathematicsCombinatoricsMechanical and Optical ResonatorsQuantum Information and CryptographyStrong Light-Matter Interactions