Progress in numerical modeling of near-field infrared phenomena at nanometer length scales

Patrick McArdle; David Lahneman; Haoyue Jiang; Muhammad M Qazilbash; Tetiana Slusar; Hyun-Tak Kim; Amlan Biswas; Fritz Keilmann; Jingyi Chen

Progress in numerical modeling of near-field infrared phenomena at nanometer length scales

ORAL

Abstract

The extraction of meaningful nanoscale material properties is reliant on proper modeling of the experimental spectra obtained with broadband, near-field infrared nanospectroscopy. We will discuss our progress towards this goal by presenting combined experimental and numerical modeling results on materials with diverse properties and geometries.. Strong coupling of light to the probe-sample system in highly polar dielectrics such as SrTiO₃ leads to multiple phonon-polariton resonances. We show that these resonances should be described by detailed numerical simulations¹. We obtain near-field infrared spectra on Cu₂S nanoplatelets and show that numerical modeling of the spectra is indispensable for obtaining the properties of nanomaterials. Furthermore, many materials have anisotropic dielectric functions. We have obtained near-field infrared spectra on a uniaxial rutile TiO₂ crystal. Proper modeling of spectra from anisotropic materials also requires meticulous numerical simulations.

¹ P. McArdle, D.J. Lahneman, A. Biswas, F. Keilmann, and M.M. Qazilbash, Phys. Rev. Res. 2, 023272 (2020).

March 18, 2021, 11:12 AM – March 18, 2021, 11:24 AM

Presenters

Patrick McArdle

Department of Physics, William & Mary, Department of Physics, College of William & Mary

Authors

Patrick McArdle

Department of Physics, William & Mary, Department of Physics, College of William & Mary
David Lahneman

Department of Physics, William & Mary, Department of Physics, College of William & Mary
Haoyue Jiang

Department of Physics, William & Mary, Department of Physics, College of William & Mary
Muhammad M Qazilbash

Department of Physics, William & Mary, Department of Physics, College of William & Mary
Tetiana Slusar

Metal-Insulator Transition Laboratory, ETRI, Metal-Insulator Transition Laboratory, Electronics and Telecommunications Research Institute
Hyun-Tak Kim

Electronics & Telecommunications Research Institute, Metal-Insulator Transition Laboratory, ETRI, Metal-Insulator Transition Laboratory, Electronics and Telecommunications Research Institute, MIT Lab, ETRI in Korea
Amlan Biswas

University of Florida, Department of Physics, University of Florida
Fritz Keilmann

Fakultat fur Physik & Center for NanoScience (CeNs), Ludwig-Maximilians-Universitat, Fakultät für Physik & Center for NanoScience (CeNS), Ludwig-Maximilians-Universität
Jingyi Chen

Department of Chemistry and Biochemistry, University of Arkansas