Open AccessAmplitude- and Phase-Resolved Nanospectral Imaging of Phonon Polaritons in Hexagonal Boron Nitride
Author(s) -
Zhiwen Shi,
Hans A. Bechtel,
Samuel Berweger,
Yinghui Sun,
Bo Zeng,
Chenhao Jin,
Henry Chang,
Michael C. Martin,
Markus B. Raschke,
Feng Wang
Publication year - 2015
Publication title -
acs photonics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.735
H-Index - 89
ISSN - 2330-4022
DOI - 10.1021/acsphotonics.5b00007
Subject(s) - phonon , polariton , quasiparticle , materials science , photon , excitation , condensed matter physics , optics , surface phonon , boron nitride , plasmon , near field scanning optical microscope , amplitude , optoelectronics , physics , optical microscope , nanotechnology , superconductivity , scanning electron microscope , quantum mechanics
Phonon polaritons are quasiparticles resulting from strong coupling of photons with optical phonons. Excitation and control of these quasiparticles in 2D materials offer the opportunity to confine and transport light at the nanoscale. Here, we image the phonon polariton (PhP) spectral response in thin hexagonal boron nitride (hBN) crystals as a representative 2D material using amplitude- and phase-resolved near-field interferometry with broadband mid-IR synchrotron radiation. The large spectral bandwidth enables the simultaneous measurement of both out-of-plane (780 cm-1) and in-plane (1370 cm-1) hBN phonon modes. In contrast to the strong and dispersive in-plane mode, the out-of-plane mode PhP response is weak. Measurements of the PhP wavelength reveal a proportional dependence on sample thickness for thin hBN flakes, which can be understood by a general model describing two-dimensional polariton excitation in ultrathin materials.
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